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B-2016-1661CITY OF CUPERTINO BUILDING PERMIT BUILDING ADDRESS: CONTRACTOR: PERMIT NO: B-2016-1661 10220 STERLING BLVD CUPERTINO, CA 95014-3826 (375 24 026) HUTCHINGS CONSTRUCTION LOS GATOS, CA 95020 OWNER'S NAME: JAMES HWANG DATE ISSUED: 03/30/2016 OWNER'S PHONE: 415-938-6839 PHONE NO: (408) 354-5858 LICENSED CONTRACTOR'S DECLARATION BUILDING PERMIT INFO: License Class GENERAL BUILDING CONTRACTOR Lic. #238658 X BLDG ELECT PLUMB Contractor HUTCHINGS CONSTRUCTION Date 08/31/2016 — — — MECH X RESIDENTIAL COMMERCIAL I hereby affirm that I am licensed under the provisions of Chapter 9 (commencing — — - with Section 7000) of Division 3 of the Business & Professions Code and that my license is in full force and effect. JOB DESCRIPTION: 16 (l) ROOF MOUNTED SOLAR PANELS 5.36 KW I hereby affirm under penalty of perjury one of the following two declarations: 1. I have and will maintain a certificate of consent to self -insure for Worker's Compensation, as provided for by Section 3700 of the Labor Code, for the performance of the work for which this permit is issued. I have and will maintain Worker's Compensation Insurance, as provided for by Section 3700 of the Labor Code, for the performance of the work for which this Sq. Ft Floor Area: Valuation: $24000.00 permit is issued. APPLICANT CERTIFICATION I certify that I have read this application and state that the above APN Number: Occupancy Type: information is correct. I agree to comply with all city and county ordinances and state laws relating to building construction, and hereby authorize 75 24 026 375 representatives of this city to enter upon the above mentioned property for inspection purposes. (We) agree to save indemnify and keep harmless the City of Cupertino against liabilities, judgments, costs, and expenses which PERMIT EXPIRES IF WORK IS NOT STARTED may accrue against said City in consequence of the granting of this permit. WITHIN 180 DAYS OF PERMIT ISSUANCE OR Additionally, the applicant understands and will comply with all non -point source regulations per the Cupertino Mu 'cip i ode, Section 9.18. 180 DAYS FROM LAST CALLED INSPECTION. iSign Date 3/30/2016 Issued by: ABBY AYENDE n Date:3/30/2016 1 QL OWNER -BUILDER DECLARATION I hereby affirm that I am exempt from the Contractor's License Law for one of the RE -ROOFS: All roofs shall be inspected prior to any roofing material being installed. If a roof is following two reasons: 1. I, as owner of the property, or my employees with wages as their sole installed without first obtaining an inspection, I agree to remove all new materials for compensation, will do the work, and the structure is not intended or offered for inspection. sale (Sec.7044, Business & Professions Code) 2. I, as owner of the property, am exclusively contracting with licensed Signature of Applicant: contractors to construct the project (Scc.7044, Business & Professions Code). Date: 3/30/2016 I hereby affirm under penalty of perjury one of the following three declarations: ALL ROOF COVERINGS TO BE CLASS "A" OR BETTER 1. I have and will maintain a Certificate of Consent to self -insure for Worker's Compensation, as provided for by Section 3700 of the Labor Code, for the performance of the work for which this permit is issued. HAZARDOUS MATERIALS DISCLOSURE 2. I have and will maintain Worker's Compensation Insurance, as provided for by I have read the hazardous materials requirements under Chapter 6.95 of the Section 3700 of the Labor Code, for the performance of the work for which this California Health & Safety Code, Sections 25505, 25533, and 25534. I will permit is issued. maintain compliance with the Cupertino Municipal Code, Chapter 9.12 and the 3. I certify that in the performance of the work for which this permit is issued, I Health & Safety Code, Section 25532(a) should I store or handle hazardous shall not employ any person in any manner so as to become subject to the material. Additionally, should I use equipment or devices which emit hazardous air contaminants as defined by the Bay Area Air Quality Management District I Worker's Compensation laws of California. If, after making this certificate of will maintain compliance with the Cupertino Municipal Code, Ch pter 9.12 and exemption, I become subject to the Worker's Compensation provisions of the the Health & Safe ode, ctions 25505, 25533, d 534 Labor Code, I must forthwith comply with such provisions or this permit shall be deemed revoked. I.. 'wner or authorized a nt APPLICANT CERTIFICATION m Date: 3 30 2016 I certify that I have read this application and state that the above information is CONSTRUCTION LENDINGAGENCY correct. I agree to comply with all city and county ordinances and state laws I hereby affirm that there is a construction lending agency for the performance relating to building construction, and hereby authorize representatives of this city of work's for which this permit is issued (Sec. 3097, Civ C.) to enter upon the above mentioned property for inspection purposes. (We) agree Lender's Name to save indemnify and keep harmless the City of Cupertino against liabilities, judgments, costs, and expenses which may accrue against said City in Lender's Address consequence of the granting of this permit. Additionally, the applicant understands and will comply with all non -point source regulations per the Cupertino Municipal ARCHITECT'S DECLARATION Code, Section 9.18. 1 understand my plans shall be used as public records. Licensed Signature Date 313012016 Professional ALTERNATIVE ENERGY PERMIT APPLICATION COMMUNITY DEVELOPMENT DEPARTMENT - BUILDING DIVISION 10300 TORRE AVENUE - CUPERTINO, CA 95014-3255 (408) 777-3228 - FAX (408) 777-3333 - buildingaar-uoertino.org r I (p l VA PROJECT ADDRESS I[J a `� U .5 e_^ T. 64 1/ APN R �J QH-oZ(, Ova�E_A'4E I PI?ONE' 93 C ��3 d E-A4AIL STREET ADDRESS % ba a D s % �°^x !/ CITY, STATE, IP I FAX L/ �.ro n CONT IWIIE PHONE I E-T�iAIL ET SS STR PDDr CI•1Y, STATE, Z P FAX 7� o3v ❑ ❑ OWKEER-BULL DER ❑ O'AW ER AGENT 9 CONFITUCTOR ❑ CONTR4CTOR AGENT ❑ ARC1T1-_,CT ❑ ENGIINMER ❑ DEVELOPER ❑ TENANT 0 TR4CTORNAT4 " I _ f � � - //-- �o LICENSENL?4BER � ��" LIC SE TYPE I BUS.LICR 1 l•l CO}✓. nz?AIN. E " f 5 �� I E-MAIL I FAX STREET ADDRESS / 7 IV 7/4.0s. CITY, STATE, ZIP � �, �iJ^ate 6 PHONE 0 ARCMTECTIENGINEER NA14a _ LICENSE N'a4BER I BUS. LIC R COI,4PANY NAME E-MAIL FAX STREET ADDRESS CITY, STATE, ZIP PHONE USE of ❑ SFD or Duplex ❑ Multi -Family PROJECT IN WILDLAND PROJECTIN STRUCTURE: ❑ Commercial URBAN INTERFACE AREA ❑ Yes ❑ NO FLOOD ZONE ❑ Yes ❑ No SOLAR PANELS ❑ ELECTRIC\rEHICL/E CK4RGI1vG STATION El SOLAR WATER HEATING El OTHER: FOR SOLAR FANELS. }UMBER OF PANELS/UN-ITS: ( 1 / _ v 3 kW KILOWATTS (COM?`.ERCIAL ONLY}: �. � � TOTAL VALU IO o'0d DESCRIPTION OF WORK Sd © OG! 07 lq� REC I< tD BY c By my signature below, I certify to each of the following: I am the property owner or authorized anent to act on the property owner's behalf. I h-ve read this application and the information I have provided is correct. I have read the Description of Work and verify it is accurate. I agree to comply With all applicable local ordinances and state laws mlM;z�� e representatives of Cupertino to enter the above -identified property for inspection purposes. Signature of Applicant/Agen Date;® —/ SUPP MENTAL INF AVIATION RE UIRED Q = = OFFICE i-5:U NZY ` >�s PitESS: c r: K } Pi;4pp _2011.doc revised 03116111 SOLAR INDIVIDUAL PERMIT PACKAGE JAMES HWANG 536 kW PV SYSTEM P T PIAN � CHECKED BY DATE PLANNING DEPT cl IPFRTINO 10220 STERLING BLVD CUPERTINO, CALIFORNIA 95014m„m,o„=W,nE„a,„,E r ABBREVIATIONS @ At ELEC. Electrical MAX. Maximum A.B. Anchor Bolt EO Electrical Outlet M.D.F. Medium Density Fiberboard A.C.T. Acoustic Ceiling Tile E.P.B. Electrical Panel Board MECH. Mechanical A.D. Area Drain EQ. Equal MEMB. Membrane AD]. Adjacent, Adjustable EQUIP. Equipment MEZZ. Mezzanine A, F.F. Above Finish Floor E.W.C. Electric Water Cooler MFR. Manufacturer AL. Aluminum EXIST. Existing MIN. Minimum A.T.C. Acoustic Tile Ceiling EXP. Expansion MIR. Mirror BB. Bulletin Board EXP. JT. EXT. Expansion Joint Exterior MISC. M.O. Miscellaneous Masonry Opening BD. Board MOD. ModM.cule BETW. Between F.D. Floor Drain hine Screw BLKG. Blocking F.E. Fire Extinguisher M.S. Mounted BM. Beam F.E.C. Fire Extinguisher Cabinet MTL. Metal B.O. Bottom Of F.H. Flat Head (N) New BOT. Bottom F.H.C. Fire Hose Cabinet N.I.C. Not In Contract B.P. Backing Plate FIN. Finish N0. Nu mber BRG. Bearing FLR. Floor NOM. Nominal BTWN. Between FLUOR. Fluorescent N.T.S. Not To Scale CAB. Cabinet F.O. Face Of CER. Ceramic F.O.S. Face Of Stud O.A.D. Overall Dimension CH Coat Hook F.O.W. Face Of Wall O.C. On Center CJ. Contro l Joint F.R. Fire Resistant O.D. Outside Diameter L Center LineOpening F.S. Full Size OPNG. .CL Closet FURR. Furring OPP. Opposite CLG. Ceiling FUT. Future O.F.C.I. Owner Furnished/ �CLR. Clear GA. Gauge Contractor Installed I C.M.U. Concrete Masonry Unit GALV. Galvanized O.F.O.I. Owner Furnished/ ,.COL Column G.B. Grab Bar Owner Installed •-CONC. Concrete G.D. Garbage Disposal O.F.V.I. Owner Furnished/ ,-iCONST. Construction G.W.B. Gypsum Wallboard Vendor Installed -CONT. Continuous GYP. BD. Gypsum Wallboard O.H. Oval Head �COORD. Coordinate O/ Over C.R. Cold Rolled H.B. Hose Bibb C.T. Ceramic Tile H.C. Hollow Core PAD Powder Actuated Device CTR Counter HDWD. Hardwood PB Push Button Door 0 erator P Countersink H.M. Hollow Metal P. LAM. Plastic Laminate $CTSK. HR. Hour IL Property Line DBL DCA. Double Drilled Concrete Anchor H.R. Hot Rolled PL Plate EDET. Detail �. Height PLY. PLYWD. Plywood Plywood inD.F. Drinking Fountain I.D. Inside Diameter Pr. Paint DIA. Diameter I.F. Inside Face P.T. Pressure Treated .DIM, °DISP. Dimension Dispenser INS. Insulation PTD. Painted ?DN. Down INT. INTER. Interior Intermediate PTN. Q.T. Partition Quarry Tile . DR. Door INTCM Intercom QTY. Quantity DSP �DTL Door Side Panel Detail JAN. Janitor R. Radius l DWG. Drawing ]ST. Joist RAD. Radius J,(E) Existing JT. Joint R.D. Roof Drain t EA. Each LCB. Liquid Chalk Board RE: Refer To 7EIFS Ext. Insulation Finish System LAM, Laminated REQD. Required -c EJ. Expansion Joint LEV. Level RES. Resilient .EL Elevation LT, WT. Light Weight RESIL Resilient '-� L.N. Liquid Nitrogen R.H. Round Head SE; Slarbucks S.C. - Solid Core / Seat Cover SCHED. Schedule SECT. Section S.E.D. See Electrical Drawings SFD Smoke Fire Damper SHT. Sheet SIM. Similar S.M.D. See Mechanical Drawings S.M.S. Sheet Metal Screw Sp Sprinkler S.P.D. See Plumbing Drawings S.S. Stainless Steel S.S.D. See Structural Drawings S.T.S. Self -Drilling, Self -Tapping Sheet Metal Screw STD. Standard STL Steel STRUCT. Structural SUSP. Suspended TB. Tack Board THK. Thick T.O. Top Of T.O.C. Top Of Concrete T.O.S. Top Of Steel TSO Telecommunication Service Outlet TTD Toilet Tissue Dispenser TYP. Typical U.O.N. Unless Otherwise Noted UP. Upper V.C.T. Vinyl Composition Tile VEN. Veneer VER. Verify VEST. Vestibule V.I.F. Verify In Field V.C. Verify With Casework V.W.C. Vinyl Wall Covering W/ With W.C. Wall Covering WD. Wood W.P. Waterproof W.R. Water Resistant W.S. Wood Screw WR Waste Receptacle 2.1 COMMUNITY D BUILDING DIVISION - CUPERTINO APPROVED This set of plans and specifications MUST be kept at the job site during construction. It is unlawful to make Iny changes or alterations on same, or to deviiiite therefrom, without approval from the Building Offi ial. The Stamping of this plan and specifications SHALL HOT be held to ermit or to be an approval of the viola ion ..ctaav_oMvi ions of any City Prdinanp or 731ate L aW. PERMIT # DRAWING NUMBER GROUP FIRE STANDPIPE CABINET NUMBER DISCIPLINE PREFIX LZ F.S.C. r�T WALL HUNG CABINETS OR W REVISION CLOUD AROUND SHELVES /n� REVISION COUNTERTOP CODE INFORMATION APPLICABLE CODES, LAWS AND REGULATIONS 2013 CALIFORNIA RESIDENTIAL CODE (CRC) 2013 CALIFORNIA BUILDING CODE (CBC) 2013 CALIFORNIA FIRE CODE (CFC) 2013 CALIFORNIA ELECTRICAL CODE (CEC) HE INSTALLATION OF THE PV SYSTEM HALL CONFORM TO THE REQUIREMENTS FTHE 2013 CBC AND 2013 CEC, ARTICLE 90 AND ANY OTHER APPLICABLE RTICLES OR STANDARDS. INSTALLATION HALL BE PROVIDED BY A CALIFORNIA CENSED CONTRACTOR(B, C-46, OR C-10) VICINITY MAP SHEET INDEX J-! V ILD— l%.Y-U I SOLAR ARCHITECTURAL D '" ( NO t./l. Z. NEW FINISH GRADE SOLAR`-rA0 ' (•�. j OVER SHEE?;, riding ®;�ic^.f�il'1 P�1 ^.I,. (DRAWN @ 45') ) t-.:,i EXISTING GRADE (SHOWN SOLARr.Alr:�- .ARRAY LAYOUT HORIZONTALLY) 1.::"' _-,��' PROPERTY LINE �N6 MATCH LINE, SHADED PORTION - - OWNER FURNISHED ITEMS S,A. TOP OF WALL IS THE SIDE CONSIDERED N.I. C. (NOT IN CONTRACT) 5 WORK POINT, CONTROL POINT OR DATUM POINT ® ACCESS PANEL Sc'�3 TOP OF CURB 3 SECTION SECTION IDENTIFICATION DIMENSION LINES 131) '(?' TOP OF PAVEMENTA3.1 SHEET WHERE SECTION IS DRAWNt 3 DETAIL DETAIL IDENTIHCAnoN A9.1 SHEET WHERE DETAIL IS DRAWN �--} I CENTERLINE OF COLUMN OR STUD y OFFSET FACE C INTERIOR ELEVATION(S) -t F.O.C. ELEVATION IDENTIFCATION 4 �{ FACE OF CONCRETE I V1,�Z1J ALIGN FACE B (UNFOLD ELEVATIONS CLOCKWISE. A5.1 NO ARROWS MEANS ELEVATION NOT SHOWN.) A SHEET WHERE ELEVATION IS DRAWN �FO.F. EXISTING WALL OR PARTITION FACE OF FINISH TO REMAIN i CLEARj FINISH FACE TO FINISH FACE " EXISTING DOOR TO REMAIN PLUMBING OR PIPE CHASE I /7 ALIGN WALL (FACE OF STUD U.O.N.) 1 REVIEWED FOR CODE COMPLIANCE Revip_�wed By: SOLAR STRUCTURAL DRAWINGS SOLAR-S1—S2 MOUNTING DETAILS LAR ELECTRICAL DRAWINGS SOLAR -El ELECTRICAL SINGLE LINE.DIAGRAM & SPECIFICATIONS SOLAR-E2 ELECTRICAL CALCULATIONS & DETAILS SOLAR-E3-E9 ELECTRICAL DATA & SPECIFICATIONS SOLAR-E 10— El 2 INVIS MOUNT DATA & SPECIFICATIONS SOLAR-E13 STRING DIAGRAM in F FyFye � LU w H n m �o Ln Ln 0Z o �1 4.i.— O O in Z g€€F Z F- Q m O o i D o cod - c U �• 808 5a o U' ad F- `a W o m o fa� , ¢ Q 0 n -#rf O Q n N cc Y U v ii »V7 z w O J m 1 a, a (a.7 0 ■rr Q O J � E d W W o M a) c� z � Z � U, > 0 = CL J In j U) LU U Lt1 W lc in > O to CC`O U Th N Z ,> n N O 'i ~ ED Z r r CL UO In IOPPORTUNrIY SPRI -Harmony Solar I PRO]ECr D-00SOS30 DATE DRAWN 03-14-2016 DRAWN BY HLLUVIOSO DATE CHECKED 03-14-2016 CHECKED BY APATEL SHEET SOLAR -AO LO O a 0 0 O O 0 3.5:12(1 T) 0 0 N O O O O E — 5'-1" 5'-1" _ 14' 10' - 4" (E) CHIMNEY 17'-6" 15'-6" 5'-9" EXISTING RAFTER 10 MODULES 5'-10" 6 MODULES (2"x4" AT 24" O.C.) 3/4" FMC CONDUIT ROOF ATTACHMENT - INTERNAL RUN THROUGH ATTIC RAI L (E) ROOF VENT (TYP.) — —SKYLIGHT (TYP. ) I EXISTING RAFTER (2"xl 0" AT 24" O.C.) I JUNCTION BOX I INVERTER 3/4" EMT CONDUIT - EXTERNAL RUN NVTR I TO ELECTRIC UTILITY GRID 0 270 90 T 180 � N OMAR TINO � �� rinent � '�`.' Pul'Iding D�iss^ e T11, REVIEWED `OR CO,D(E CONIIPLIANCE _(E) MAIN SERVICE PANEL AND UTILITY METERING NOTE: 1. MINOR FIELD ADJUSTMENTS ALLOWED BASED ON ACTUAL SITE CONDITION AND MEASUREMENTS. -(N) LOAD CENTER CONTRACTAQUANTITY AMNTITY SPR-X21-335-BLK(16) IN -TYPE QUANTITY ANDD QUANTITY SB5000TL-US-22 (240VAC) {1) SYSTEM SIZE 5.36 kW ROOF TYPE FLAT TILE STORY HOME TYPE 1 - STORY SYSTEM ORIENTATION 1800S 3' WIDE MIN. FIRE ACCESS PATH ROOF PITCH 3.5:12(17') CONSUMPTION NO MONITORING MAIN BREAKER RATING 200 A BUS BAR RATING 200 A CENTERFED NO MAIN BREAKER m _e j $ W C F 3� tn co N V' G ,n Q 3 U \./" ^ ' C. v in v f- on Z a Q Z °`° '^ = Zgg B x og a U V9d ,r v ., gg O gg U ~ r m W o •� Q O L rn J Q n O O < n ,�4 s V, a. U O O J K Q b ¢LL U' v s O J w LJ o J rn �a (7 W Z H � O i J O '-' c� LL, CL uI U J } U)o_ W Y L < M N Z Ln o ��/ z ' w a M g U OPPORTUNITY SPRI - Harmony Solar PROJECT D-0OSOS30 DATE DRAWN 03-14-2016 DRAWN BY HLLUVIOSO DATE CHECKED 03-14-2016 CHECKED BY APATEL SCALE 3/32" = V-0" SHEET SOLAR -Al N F �b W W =O 0 RISK CATEGORY II, V = 110 MPH BASIC WIND SPEED, • EXPOSURE C, 0 PSF GROUND SNOW LOAD, Ss = 2.Og- . } > a,^ N 3 o SUBFLASHING a Z u o G� MAX MAX MAX SPACING CANTILEVER MAX UPLIFT DOWNFORCE INVISIMOUNT RAIL O :3'T Oul r z z£8 ZONE 1 72" 24" 22 psf 24 psf QUICK HOOK Z a 3421b 378Ib PV MODULE a Ug 40 ZONE 2 48" 24" p p 420 b 252 b / J BASE PLATE ' ^ v O od.9 �a ZONE 3 24" 20" 64 psf 24 psf I LAG BOLTS ! U € o 3341b 126Ib • NOTE: POINT LOADS SHOWN IN TABLE ABOVE (Ib) ARE FOR EACH ATTACHMENT ASSUMING MAX SPACING SHOWN IS USED. CONCRETE TILE ROOFING r77 • LOADS SHOWN ARE LRFD LOADS. ATTIC w o TRUSS OR r RAFTER 24" OC MAXIMUM. O rn O1 REFER TO SUMMARY TABLE REFER TO SUMMARY TABLE FO MAX SPAN AND CANTI FO MAX SPAN AND CANTILEVER a 0 0 ON n a n 2"X4"/2"X10" TRUSS OR RAFTER ' r } O SPACED 0 24" OC MAX INVISIMOUNTRAILS ... .. . ........__. ......... ... .._ - (2) PER MODULE z uj O _j '^�� 4 a ui m 0 .� a Go o .. n �YS as o FIGURE 2: INVISIMOUNT WITH QUICK HOOK SIDE VIEW DETAILSZI - L �.... I:... f SUNPOWER MODULE (TYP.) -- MID CLAMP QUICK HOOK (TYP.) - - (SEE FIGURE 2, 3 Ec 4) - INVISIMOUNT RAIL PV MODULE PV MODULE _ — _;— — — P. n 1 42 L. k: =1, f o \ L I I I I I: —_ — ---- — — _ _ - -� ._._ �' - - _ _ _ _ - z In J H DO z J m QUICK HOOK 1 (n Z O lQL M .. .. CONCRETE TILE ROOFING SUBFLISHING = d � --I . - .,.� .:... ..... END CLAMP BASE PLATE ROOF SHEATHING W LLJ F_ U N r x T'- (2) 5/16" X 3 1/2" S.S. LAG BOLT WITH 5/16- WASHER 0 CENTER TYP. 2-1/2" MIN. EMBEDMENT INTO RAFTER. l0 Q M 1 In O U N z NO t— a PRE-DRILL REQUIRED. 2"X4"/2"X10-TRUSS OR RAFTER .-i W (DOUGLAS FIR OR EQUAL) OL _ • WEIGHT OF INSTALLED ARRAY: 3.5 PSF f U •STAGGER ATTACHMENTS WHEREVER POSSIBLE MID CLAMP G I� e PE 0.5" MIN - '' .. i �sa l 6,! 1 10 �� n`•;� FIGURE 1: PLAN VIEW TYPICAL ARRAY LAYOUT FIGURE 3: INVISIMOUNT WITH QUICK HOOK DETAI Cv"RAF IS �.,.. u �P,;2.�-�--�•:•! A9 fd � � �l err Ere 14- 14" C. • .._....,._. ..,...... _......... .. ...._._., :r .. INVISIMOUNT RAIL MAX CANTILEVER M,RE= IEVdT"E FOR 0 iQE COMPLIANCE PER SUMMARY TABLE END CLAMP T-[eVIWeU 9 En Z o ......: •.............._.-.: >_...., .......:.....:..... c END CAP O ' CONCRETE TILE ROOFING PV MODULE PV MODULE SUBFLASHING o: °� r � t � _ . •a» � ��,.�� a�a� ��. �. >s��t. � w�.�:a��: ti�a,.�. � a .�.,,ava w��ro�� ..��.��e;.+�: .��.��•:�� ..ti��. .�:. o QUICK HOOK .............. `-......_ �...... .............: . J i :`-- ' :- r•,- :- I i. a BASE PLATE ROOF EATHING {3) 16d SINKER NAIL OR L OR (3) 16d SINKER NAIL NAIL ON EACH END (2) 5/16" % 3 1/2" S.S. LAG BOLT TOE NAIL ON EACH END WITH 5/16" WASHER 0 CENTER TYP. OPPORTUNITY SPRI -Harmony Solar __ i )..............:._...::.......,......-....._::......,;.......[ '.:.... �...... ;._. ;------ ..'... _'. -- - ' - - - TRUSS OR RAFTER 2 1/2 MIN. EMBEDMENT - INTO RAFTER. SPACED EO ®24" TRUSS PROJECT D-0060630 ;._.. i:...l. s.... %:.... *.....:..__ L.. _3 `.... ............... _ OC MAX PRE -DRILL REQUIRED. OR RAPIER NOTE 4"X6" FLAT BLOCKING SPACED 0 24" OC MAX _.. ONLY REQUIRED WHERE DATE DRAWN 03-14-2016 L V j ' T 14" 14" k B. __ L� ��_ ATTACHMENT POINT IS REQUIRED BETWEEN RAFTERS/TF2USSES IN DRAWN BY HLLUVIOSO ORDER TO MEET MAX CANTILEVER _ 96 CELL MODULE 72CELL MODULE SHOWN IN FIG. 1 SUMMARYTABLE. DATE CHECKED 03-14-2016 • INVISIMOUNT RAILS SHALL BE POSITIONED IN THE NON -CROSS HATCHED REGIONS CHECKED BY APATEL FIGURE 5: INVISIMOUNT MOUNTING CLAMP POSITIONING DETAILS FIGURE 4: INVISIMOUNT WITH QUICK HOOK DETAILS @ BLOCKED LOCATIONS SHEET SOLAR-S 1 LL DESIGN PARAMETERS WIND LOADS RISK CATEGORY: II EXPOSURE: B OR C MAXIMUM WIND SPEED PER IBC 2012, V: 110 MPH MAXIMUM ROOF HEIGHT, H: 22 FT MAXIMUM ROOF SLOPE: 12:12 MAXIMUM RAFTER SPACING: 24" MAXIMUM LEAST HORIZONTAL DIMENSION OF BUILDING, L: 50 FT TOPOGRAPHIC FACTOR, kzt: 1.0 WIND DIRECTIONALITY FACTOR, kd: 0.85 VELOCITY PRESSURE EXPOSURE COEFFICIENT, kh: .92 INTERNAL PRESSURE COEFFICIENT, GCPi: 0.0 SNOW LOADS MAXIMUM GROUND SNOW LOAD, pg: 0 PSF EXPOSURE FACTOR, Ce: 0.9 (FULLY EXPOSED) THERMAL FACTOR, Ct: 1.2 (UNHEATED AND OPEN AIR STRUCTURES) SLOPE FACTOR, Cs: PER FIGURE 7-2c (UNOBSTRUCTED SLIPPERY SURFACE) SNOW IMPORTANCE FACTOR, Is: 1.0 SEISMIC LOADS SHORT PERIOD SPECTRAL ACCELERATION, Ss: 2.Og SITE COEFFICIENT, Fa: 1.0 COMPONENT AMPLIFICATION FACTOR, ap: 1.0 SEISMIC COMPONENT IMPORTANCE FACTOR, Ip: 1.0 COMPONENT RESPONSE MODIFICATION FACTOR, Rp: 1.5 SITE CLASS: D Z FLAT ROOF GABLE ROOF (e <_ 70) ✓ --t- t i f t � 4 `s" I HIP ROOF (70< 6 <_ 270) t t I „ 5 !j fjl'I?t� t I t l t GABLE ROOF (70< A <_ 450) INTERIOR ZONES ZONE 1 rEND ZONES L_l� .Z-QUE 2r- '�=-ma's, t,':_t P c CUPERTINO Bu'lldirg DIcartnent of caRI E ZQM'b-s 3 0 2016 ZONE 3 REVIEWED FOR CODE COMPLIANCE Reviewed By: En F �b f Q 6 ��. w 0 0 } rn 'T } o to d En olw 3 w o jig �1 I..L� O O O Z� In g„F 7 ¢ m O o L ce ¢ .` . o o_ = _ U v 8, �Iid Q .. v 0 V M ! U � �a v tu u w o m 3 o ¢ O a t^ m f ; { J T ✓ U) O K ¢ U $� } } O J O r^ Do R o Q J cv �F -47 f t 4 .--1 O In 0 LU Z m > a LLLI < "! r"1 In � J CO z J W � N 0 01 Q Z 0 --I < U Z J CO < In Lu M � M N Z x Z U) 0 a Z) U OPPORTUNITY SPRI - Harmony Solar PROJECT' D-0050530 DATE DRAWN 03-14-2016 DRAWN BY HLLUVIOSO DATE CHECKED 03-14-2016 CHECKED BY APATEL FIGURE A: ROOF ZONES PER ASCE 7-10 SOLAR-S2 v b w w O o N N O Ln Ln a is in t F ' Load Calculation Parameters 5/16" Diameter Lag Bolt Strength a f g Rail tributary width 2.6 ft NDS LRFD VY Flat roof snow load pf 0 psf v Wind velocity pressure qh 24 psf o Service Loads Number of bolts = 2 inch U Dead Load pd 3.38 psf Sloped Roof Snow Load ps 0 psf Thread penetration = 1 inch Wind Load Upward Zone 1 pw_zonal -24.23 psf Bolt diameter, D = 0.3125 inch Wind Load Upward Zone 2 pw_zone2 -43.81 psf Specific gravity, G = 0.49 (Douglas Fir or equal) F W m Wind Load Upward Zone 3 px zone3 -67.84 psf % i l Wind Load Downward pw_down 22 psf Withdrawal value, W = 258 lb; NDS Table 11.2A r3 a o O1 Seismic Load Fp 3.6 Load duration factor, Cd = 1; Section 10.3.2 (LRFD design) J a a ^ Seismic Load Fp_upper limit 1•4 7.2 Wet service factor, Cm = 1; Section 10.3.3 (wood in continuously dry condition) ;r 'c o a ^ ce U a Seismic Load Fp_lower limit } Seismic Load Fp_egn 3.6 Temperature factor, Ct = 1; Section 10.3.4 (no sustained temp > 100°F) t o J 0 Load Combinations End grain factor, Ceg = 1; Section 11.5.2 (no end grain) r a a o 1 AD Combo 1 10 plf 1.2D+1.6S+0.5W Combo 2 35 plf Toe -nail factor, Ctn = 1; Section 11.5.4 (no toe nail) � s Q u_ o Q _ ul 12D+0.5S+1.OW Combo 3 63 plf Format conversion factor, Kf = 3.32 ; Table N 1(Connections) :. 1 ^ o J 0.9D+1.OW Combo 4 (Zone 1) -57.13 plf Resistance factor, Oz = 0.65 ; Table N2(Connections)� 0.9D+1.0W Combo 5 (Zone 2)-104.96 pif 0.9D+1.OW Combo 6 (Zone 3)-166.87 plf Time effect factor, A = 1; Table N3(Wind/Seismic) 1.2D+1.OE+0.2S Combo 11 11 pif mTn = 1115 lb; Table 10.3.1 1.41) Combo 7 7.4 pif 1.2D+1.6S Combo 8 6.4 plf 1.2D+0.5S Combo 9 6.4 pif 0.91) Combo 10 4.8 pif 1.2D+1.OE+0.2S Combo 12 13 pif Worst Case Uplift Zone 1 WCzonel 57 pif .t Worst Case Uplift Zone 2 WCzone2 105 plf o Z Worst Case Uplift Zone 3 WCzone3 167 pif 0 rn O Worst Case Downward WCdown 63 plf W Q Y � Worst Case Seismic Demand WCeq 11 pif Z F CO Cog Worst Case Shear for Uplift Cases WCshear_up 4.8 plf Q U) U oC Co U Worst Case Shear for Downward Cases WCshear_down 7.4 pif ?� in ? Oa M J Worst Case Shear for Seismic Cases WCshear_eq 13 pif 2 a _ M U Roof Wind Zone Dimensions to Lu H U N J Width of edge and corner zones a 5ft W x (n I X Maximum Allowable Spacing of Attachments Q o O a Maximum allowable attachment spacing, zone 1 Lallowed_zonel 72 in N U Maximum allowable attachment spacing, zone 2 Lallowed_zone2 48 in L Maximum allowable attachment spacing, zone 3 Lallowed_zone3 24 in a Maximum allowable cantilever, zone 1 Cantileverzonel 24 In U Maximum allowable cantilever, zone 2 Cantileverzone2 24 in Maximum allowable cantilever, zone 3 Cantileverzone3 23 in Rail Bending Rail Bending Up Strength Mn-rail-up 548 Ib-ft Rail Bending Down Strength Mn-rail-down 580lb-ft ol u L-Foot L-Foot Tension Strength Tn_L-Foot 510 lb m 0 L-Foot Compression Strength Cn_L-Foot 999 ib o L-Foot Shear Strength Vn_L-Foot 195 lb Tile Hook Hook Tension Strength Tn_hook 530 lb Tile Hook Compression Strength Cn_hook 450 lb —_ - - — Crle ` ¢ � 6.e P E 1 j ` 4 s:� � B�Idln !-• z o 53 lb ,m I� a Tile Hook Shear Strength forCompression Vn_hook down Tile Hook Shear Strength for Tension Zonal Vn_hook_z1 117 lb ° ; � ` V) > Tile Hook Shear Strength for Tension Zone2 Vn_hook _z2 72 lb MAR d �8� uj o Tile Hook Shear Strength for Tension Zone3 Vn_hook _z3 14 lb Tile Hook Shear Strength for EQ Case Vn_hookeq 302 lb _ REVIEWED FOR CODE COMPLIANCE Reviewed By: OPPORTUNnY SPRI - Ha"nony Solar z O PROJECT' D-0050630 0 DATE DRAWN 03-14-2016 DRAWN BY HLLUVIOSO DATE CHECKED 03-14-2016 i; CHECKED BY APATEL v; ;; FIGURE A: INVISIMOUNT STRUCTURAL CALCULATION FIGURE B: LAG BOLT STRUCTURAL CALCULATION SHEET SOLAR-S3 FIGURE A: SINGLE LINE DIAGRAM -NO STRINGS COMBINED PRIOR TO INVERTER: 5.36 kWDC INCOMING SOURCE FEED UTILITY BIDIRECTIONAL METER#: 1005532736 (E)MAIN SERVICE PANEL MANUF.: SQUARE-D A200A, 120/24OV, 1PH, 3W 6 21 SB500OTL-US-22 (Sunny Boy) - 240 VAC (N) SOLAR LOAD CENTER 200A MCB INVERTER EFFICIENCY 97.00 /o ROOFTOP ARRAY WIRING Al125A, 120/24OVEATON 88/162CKT, MLO, SUNPOWER MODULES NEMA 311 (DS-HI-HUB) SPR-X21-335-BLK LOCATED NEXT MSP MPPT 1: STRING 1 ❑ 5 MODULES/STRING MPPT 1: STRING 2 5 MODULES/STRING MPPT 2: STRING 1 6 MODULES/STRING ]UNCTION BOX NEMA-311, HOFFMAN Al2R106 OR EQUIVALENT A TAG DESCRIPTION Al SOLAR PV MODULE / STRING 0 DC/DC CONVERTERS INSTALLED NO SOURCE CIRCUIT ]UNCTION BOX INSTALLED YES SEPARATE DC DISCONNECT INSTALLED NO INTERNAL INVERTER DC DISCONNECT YES STRING INVERTER YES LOAD CENTER INSTALLED YES PV PRODUCTION METER INSTALLED NO SEPARATE AC DISCONNECT INSTALLED NO DC INTERNAL DC DISCONNECT" AC DATA `-jam ILL CABLE SPS OUTLET CAT5e CABLE /SWITCH SUNPOWER MONITORING SYSTEM M.L.O. 30A, 2P 20A, 1P EXISTING LOADS 20A, 1P 20A, 1P EXISTING LOADS 20A, 1P CONDUCTOR/CONDUIT SCHEDULE TAG DESCRIPTION & CONDUCTOR TYPE CONDUCTOR SIZE NUMBER OF CONDUCTORS CONDUIT/CABLE TYPE CONDUIT SIZE ❑ PV-WIRE #10 AWG 6 EGC: BARE COPPER #10 AWG 1 © THWN-2 #10 AWG 6 FMC 3/4" EGC: THWN-2 #10 AWG 1 ❑ THWN-2 #10 AWG 3 EMT 3/4" EGC: THWN-2 #10 AWG 1 ❑ THWN-2 #14 AWG 4 EMT 1/2" EGC: THWN-2 #14 AWG 1 ❑ THWN-2 #8 AWG 3 EMT 3/4" EGC: THWN-2 #10 AWG 1 :HECK A BOX FOR WHETHER SYSTEM IS GROUNDED OR UNGROUNDED: ❑ -GROUNDED {INCLUDE GEC) g' UNGROUNDED OR UNGROUNDED SYSTEMS: DC OCPD DISCONNECT BOTH CONDUCTORS OF EACH SOURCE CIRCUIT. UNGROUNDED CONDUCTORS MUST BE IDENTIFIED PER 210:5(C). WHITE FINISHED CONDUCTORS ARE NOT PERMITTED. 40A, 2-P( o J _ EXISTING - GND (2) 20A/20A TWIN CIRCUIT CB FROM MAIN SERVICE PANEL RELOCATED TO (N) LOAD CENTER NOTE: BELOW ARE OPTIONAL OFFERINGS AND SHALL ONLY BE INSTALLED F THE HOMEOWNER SIGNS A SPECIFIC CONTRACT WITH SUNPOWER • SUNPOWER MONITORING SYSTEM • SECURE POWER SUPPLY (SPS) • GFCI OUTLET ]UNCTION BOX (IB) MAY ONLY NEED TO BE INSTALLED WHEN REQUIRED AND NEEDS TO BE IDENTIFIED IN THE FIELD FIGURE B: LABELING SPECIFICATIONS WARNING: INVERTER OUTPUT O WARNING: DUAL POWER SOURCES CONNECTION; DO NOT SECOND SOURCE IS RELOCATE THIS PHOTOVOLTAIC SYSTEM OVERCURRENT DEVICE RATED AC OUTPUT CURRENT:22.00 A AC NORMAL OPERATING VOLTAGE: 240V t N) LOAD CENTE WARNING: ELECTRIC SHOCK HAZARD WARNING: ELECTRIC SHOCK HAZARD IF A GROUND FAULT IS THE DC CONDUCTORS OF I N DICATED, NORMALLY THIS PHOTOVOLTAIC SYSTEM GROUNDED CONDUCTORS ARE UNGROUNDED AND MAY BE UNGROUNDED AND MAY BE ENERGIZED o ENERGIZED INVERTER INTEGRATED PV SYSTEM DC DISCONNECT RATED MAX POWER -POINT CURRENT: 11.70 ADC RATED MAX POWER -POINT VOLTAGE: 34.4 VDC SHORT CIRCUIT CURRENT: 15.58 A MAXIMUM SYSTEM vOLTAGE:433 VDC WARNING: PHOTOVOLTAIC POWER SOURCE H 0 --- REFERENCES: ALL REQUIREMENTS ARE MET BY: **2013 CALIFORNIA ELECTRICAL CODE** ELECTRICAL NOTES 1. ALL SEAL TIGHT FLEXIBLE METAL CONDUIT (OR EQUIVALENT) TO BE BONDED TO GROUND AT COUPLINGS ON BOTH ENDS. 2. CONDUIT ENTRY/CONNECTION TO ELECTRICAL ENCLOSURES SHALL BE SUITABLE FOR GROUNDING AND SHALL BE SEALED AGAINST ENVIRONMENT, SUCH AS WATER, INSECTS AND RODENTS. CONDUIT SHALL NOT ENTER FROM TOP OF ELECTRICAL EQUIPMENT IN OUTDOOR LOCATIONS WITHOUT SITE -SPECIFIC APPROVAL FROM SUNPDWER. IF GRANTED APPROVAL FOR TOP ENTRY, ONLY RIGID CONDUIT WITH MEYERS HUBS TO BE USED. 3. INSULATED BONDING BUSHINGS TO BE USED ON ALL CONDUIT TERMINATIONS REGARDLESS OF VOLTAGE. THE INSULATING FITTINGS SHALL BE SUITABLE FOR BONDING TO GROUND IN ACCORDANCE WITH NEC 250.92. INSULATED BOX CONNECTORS DO NOT MEET THIS REQUIREMENT. 4. PROPER LISTING EXPECTED FOR CONDITIONS OF USE ON ALL LUGS, FITTINGS, CRIMPS, ETC. S. ALL CONDUIT BEND RADII TO CONFORM TO THE NEC MINIMUM BEND RADII REQUIREMENTS. 6. MINIMUM CLEARANCE SHALL BE MAINTAINED PER NEC FOR ALL NEW EQUIPMENTS TO BE INSTALLED. 7. EXISTING GROUNDING ELECTRODE SYSTEM MUST MEET NEC AND LOCAL UTILITY REQUIREMENTS. B. COPPER CONDUCTORS SHALL BE USED UNLESS SPECIFIED. 9. ELECTRICAL METALLIC TUBING(EMT) SHALL BE USED FOR ALL EXTERNAL CONDUIT INSTALLATION. ITORING SYSTEM I ! �,,; DepF_rtie MAIN SERVICE PANEL OR SUB ' J 4AR 3 0 2016 l PANEL 1/2" EMT R�VI V11ED EDR CCpE COMPLIANC (2) #14THWN-2 (1) #14 THWN-2'EGC SA, 1-PO4 _ PV SUPERVISOR GFCI OUTLET 1/2"•EMT-J __ —r— ETHERNET (2) # 14 THWN-2 CONDUCTORS CONNECTION (1) #14 THWN-2 EGC DSL/CABLf MTO LfCABMODEM DATA COMMUNICATION CABLE CAT5e CABLE v, x de F w' w ODo o N Y N Q O o� Ln g m � gggg5 Z U�9 ^^ 1..1..E O m v In tn Z ¢ K , Z§ O o x � 8 0 a x wffi a x u K .. OU €° x U) a `ir 1T o a a a, I, 0 0 ¢ N v O m O J F m w ¢ C) ¢ L¢7 w v y x .-I u) .. �Y 0 J tf n C7 2: W z ~ U) W tD Q M n Ln d' O Owl CO ►¢" _j ED U c 11T O I,,T J � M U � N x O ct NCL Z U) N O a U OPPORTUNITY SPRI - Harmony Solar PROJECT D-0050530 DATE DRAWN 03-14-2016 DRAWN BY HLLUVIOSO DATE CHECKED 03-14-2016 CHECKED BY APATEL SHEET SOLAR -El wF N o FIGURE A: ELECTRICAL CALCULATIONSLn U > 01 0 U) Q Ln && U o Z .. 0 O Z L tG Egg F- m Q o .�. F Q S O ' F�8 80 = ce NIL O L) •r .+ E -....: _- f- In "' r, W S t" 7 'I r+r O Or m Y 3 Q O O+ i O O Q n 4In l K U r r N Z O m '{ „ O -j f ~ m Q i ( ¢ O v In yrt x . n O err t � ' apt'' P J n d- .-4 O In U) Z O) O LLI m z m F- g z z O I.L. M U J 2 a w a (Yl u W U X U) U � to O O M Q N Z En In O ~ W LU CL W U m V m Q U1 •�� x. y/-e J 1 8 `V &�� d•9� Z O d r?Ljildin9 D-wErt;nem F " It E a ILI o ► MAR 3 0 2016 u C) N REVIEWED FOR CODE COMPLIANCE � N `n Revienwed By: OPPORTUNITY SPRI - Harmony Solar S w PROJECT D-0050530 DATE DRAWN 03-14-2016 rz ti DRAWN BY HLLUVIOSO a: DATE CHECKED 03-14-2016 LJ n CHECKED BY APATEL ct f SHEET SOLAR-E2 DC, MPPT 1 MAXIMUM SYSTEM VOLTAGE (DC) 360.43 V LOWEST AMBIENT TEMPERATURE FOR SITE 0'C PV MODULE OPEN CIRCUIT VOLTAGE 67.9 V PV MODULE VOC TEMPERATURE CORRECTION COEFFICIENT -167.4 mV/°C PV MODULES PER STRING 5 VMAX = (VOC + (VOC COEFF / 1000) x (THIN-25)) x MODULES_STRING 360.43 V MAXIMUM SYSTEM CURRENT (DC) 7.79 A PV MODULE SHORT CIRCUIT CURRENT 623 A MULTIPLIER, HIGH IRRADIANCE (1250W/m2) FOR>3h 1.25 [MAX DC = ISC x 1.25 7.79 A ROOFTOP ARRAY WIRING (DC) #10 MINIMUM WIREAMPACITY:IWIRE MIN=IMAX_DCx1.25 9.73A CONDUCTOR DE -RATING MAXIMUM AMBIENT TEMPERATURE 54'C TEMPERATURE DE -RATING COEFFICIENT 0.76 CURRENT CARRYING CONDUCTORS/CONDUIT 1-3 CONDUIT FI OC,MPPT2 MAXIMUM SYSTEM VOLTAGE (DC) 423.51 V LOWEST AMBIENT TEMPERATURE FOR SITE 0'C PV MODULE OPEN CIRCUIT VOLTAGE 67.9 V PV MODULE VOC TEMPERATURE CORRECTION COEFFICIENT -167.4 mV/°C PV MODULES PER STRING 6 VMAX = (VOC+ (VOC-COEFF / 1000) x (THIN-25)) x MODULES -STRING 432.51 V MAXIMUM SYSTEM CURRENT (DC) 7.79 A PV MODULE SHORT CIRCUIT CURRENT 6.23 A MULTIPLIER, HIGH IRRADIANCE (1250W/m2) FOR> 3h 125 IMAX DC = ISC x 1.25 7.79 A ROOFTOP ARRAY WIRING (DC) #10 MINIMUM WIRE AMPACITY: IWIRE_MIN = IMAX_DC x 1.25 9.73 A CONDUCTOR DE -RATING MAXIMUM AMBIENT TEMPERATURE 54°C TEMPERATURE DE -RATING COEFFICIENT 0.76 CURRENT CARRYING CONDUCTORS/CONDUIT 1-3 CONDUIT FILL DE -RATING COEFFICIENT 1 CONDUCTOR AMPACITY - CONDITION OF USE = 30.4 A (>7.79 A) WIRE AMPACITY SELECTED X TEMP COEFF. X FILL COEFF. CONDUCTOR AMPACITY -TERMINAL TEMP LIMIT 35 A (>9.73 A) ROOF PENETRATION TO INVERTER WIRING (DC) #10 MINIMUM WIRE AMPACITY: IWIRE MIN = IMAX DC x 1.25 9.73 A CONDUCTOR DE -RATING MAXIMUM AMBIENT TEMPERATURE 61 °C TEMPERATURE DE -RATING COEFFICIENT 0.58 CURRENT CARRYING CONDUCTORS/CONDUIT AC INVERTER TO GRID TIE WIRING (AC) #10 INVERTER RATED POWER 5000 W INVERTER/ GRID VOLTAGE 240 V INVERTER RATED MAX OUTPUT CURRENT: LAC -OUT 22.00 A MINIMUM WIRE AMPACITY: [MAX = IAC_OUT x 1.25 27.50 A CONDUCTOR DE -RATING MAXIMUM AMBIENT TEMPERATURE 36°C TEMPERATURE DE -RATING COEFFICIENT 0.91 CURRENT CARRYING CONDUCTORS/CONDUIT 1-3 CONDUIT FILL DE -RATING COEFFICIENT 1 CONDUCTOR AMPACITY - CONDITION OF USE = 36.4 A (>22.00 A) WIRE AMPACITY SELECTED X TEMP COEFF. X FILL COEFF. CONDUCTOR AMPACITY -TERMINAL TEMP LIMIT 40 A (>27.50 A) CONDUCTOR SIZE ADJUSTED FOR VOLTAGE DROP #10 VOLTAGE DROP AT 50 FT CONDUCTOR DISTANCE 0.7', I OVERCURRENT PROTECTION (AC) 30A, 2P MINIMUM OCPD = LAC x 1.25 27.50 A NEXT LARGER OCPD SIZE 30 A En = {b SIGNAGE NOTES w o o w, N n v o > > tn PHOTOVOLTAIC DC DISCONNECT 1. MATERIAL USED FOR THE SIGNAGE SHALL BE REFLECTIVE, '^ ¢ m WEATHER RESISTANT AND SUITABLE FORTHE ENVIRONMENT. 3 ¢ c PHOTOVOLTAIC z iy= o . IT SHOCK• 2. ALL SIGNAGE SHALL HAVE ALL CAPITAL LETTERS WITH Q� p in �e WARNING DISCONNECT .CONDUCTORSELECTRIC• MINIMUM %" LETTER HEIGHT, WHITE ON RED BACKGROUND. F m z .. � 9 • SHOCKELECTRIC HAZARD • ' , • • UTILITY OPERATION • • •PHOTOVOLTAICUNGR•• , 3. MAIN SERVICE DISCONNECT MARKING SHALL BE PLACED Z � ¢ f o q�q $ ADJACENT TO MAIN SERVICE DISCONNECT IN A LOCATION a • • •TERMINALS. • • CLEARLY VISIBLE FROM THE LOCATION WHERE THE LEVER IS z TERMINALSON BOTH THE LINE AND OPERATED. r ^ O -' g v! U LOAD SIDES •Y BE ENERGIZED 4. MARKING IS REQUIRED ON ALL INTERIOR AND EXTERIOR DC �� IN • • • • • • • 22.00A CONDUIT, RACEWAYS, ENCLOSURES, CABLE ASSEMBLIES, AND THE ]UNCTION BOXES TO ALERT THE FIRE SERVICE TO AVOID • • • 11.70 ADC • •' • 240 VAC CUTTING THEM. MARKINGS SHALL BE PLACED EVERY 10, AT LA�N�fq�R-POINT DSIGNAGE LOCATIONS: TURNS AND ABOVE AND/OR BELOW PENETRATIONS, AND AT ►- 344 VC • INVERTER INTEGRATED DC DISCONNECT VOLTAGE:MAXIMUM SYSTEM 433 VDC ALL DC COMBINER AND ]UNCTION BOXES. r` wrSHo •• 15.SBA iy� z 3 0 S. DO NOT USE SCREWS FOR SIGNAGE ATTACHMENT. USE ONLY ¢ o SIGNAGE LOCATIONS: APPROVED ADHESIVE. J ¢ a O o • OUTDOOR MAIN SERVICE PANEL 6. ACTUAL PLACARD LANGUAGE MAY VARY BASED ON s ' Nb' m ad u n SIGNAGE LOCATIONS: v JURISDICTION REQUIREMENT. ' C_01 „n INVERTER INTEGRATED DC DISCONNECT z O J O to S fn T 53 n O .-. w U] CZ I c I r In CA N m U C7 ' a N Z O M U) > J m CL W Q N Q • • LU U X DC .. • • • •.4. Q M N O In Q Z CL •j • • • .. • . 0 r 1 In O� W H • • ' • • CL •SUPPOZ) J • • • FOLLOWING• • W • • • + • m SIGNAGE LOCATIONS: SIGNAGE LOCATIONS: m • MAIN SERVICE PANEL • DC CONDUIT ° REFER TO NOTE # 4 ' a INVERTER a J ° \ Ln m _ •� SERVICE z w POINT & O G UTILITY N I ETT C,METERING ett� dlii(?£ll > � ° ejLil if16 PANEL CENTER �tia • • • zo SYSTE • ••• • G9Vha ocPHOTOVOLTAIC• • 1'1' TURN ¢ WORKING K 22.00A REVIEWED FOR Cf_-19E C0 i,,,P nn nCC • • • �- I r �-• G OPPORTUNITY SPRI - Harmony Solar • • • • 240 VAC SIGNAGE LOCATIONS: Review@CI By r ;� tea, i PROIECT D-00SO530 a • NEXT TO MAIN SERVICE PANEL o DATE DRAWN 03-14-2016 0 1 o SIGNAGE LOCATIONS: SIGNAGE LOCATIONS: E=NOTE: DRAWN BY HLLuvIDso •MAIN SERVICE PANEL • ADJACENT TO PV BREAKER REQUIRED WHEN INVERTER IS NOTNE OF SIGHT OF MAIN SERVICE PANEL DATE CHECKED 03-14-2016 v� {NECKED 0Y APATEL 3 J SHEET SOLAR-E3 �r-ov,'re wa�r'r L an 'i qa 1 0 5 0 or P guarariteed,piav'4ev 94,1 4L, r- iirsr 5 �-e a51 R-X41,1335.-BLK� SLTX21 -345 r (':f7crn)r. -335:vy 345 V11 p Currem'(Impp) 5 :A' -Fired _heC[•J'CUIiCUrf?CIC; IS' '6.13 6.30,1 A &IOVIUL M 000v !EC pmrwer I er, - --- -------------- cur'r�'1"[.Tn-m) CG-J C. rr-4, FV 6 0 'fl: - Cap-! ^S'UnPOWel HGA11- fdmi.-C,4k tpRo,vu �Lnt ' Re.pol,''hFEL, '),q out .1 I- "J'pFn4 Combirv2d po,,.,,cr aid Prf>r,L:-- I r- def -9. 25'ye3ramrajge -,ndi 1 -1 rer: er-7ent stn. ar Sra-ndb rd :eKs' I UiLl 703 (Tk e:E 2Fie R.66n g)JEC' GJ215rJECC3,173fi .Qualt.-,v, Ceris SZO s co't'. rr i a r; C e -KrJH'-% 0 HS-S 1 BOO i :260,`4jez&fj�qac RE,!j�P <VHC- 1 18. 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A<4 .-.12 GS rame: 'Wrid 621 psf -,'GJn, Pa,.S,Lj5 41 tt,& 6nH�& fn ov,,., 12 5 ps ,,* 6 Q Q 0 PeI I , kv rm" t. or, I zi G3 rrame: VVInd: 113 pxs'Pa2.44 P1 Pa41111f0rlu a t;s i d. a cIC n ize.j� ' A I c-4 tfii! espA.. raw-. g.), 46. m m" E al1 g 7 - ------------ 66 �R-us '�io v V -AC . ...... r, i's 7, J N."t ,erPP*bfi P -YA-- 11! a j -2-2 '2 21 bOHzj593 % Protection deAces q'ii-0-6Vdievid'o ......y. 177 A —?7 Y, R" toring,, — -12 ppri L-K-- "'T t6 residual Cyrrentmo'np.ngunj76•-7 v __Lily j ent !CC (n Lu Lu 0 M Ln Do Ln U 0 CsL. 0z M 0 C� < x 0 of 0 u vul < < 0 0 < V) w u z >- Vm C) tu 0 m Go < r= 0 gig u Ing 0 rn < > U-) uJ tD < Lr) DO (D Lu F-- U) C:) rN (714 C) 0 Ln m < 2! q� 0 LL < U Z — U < ILL M u Lu a(f) U) T C6 I H 174 X < U) u U Lu -i Lu II OPPORTUNITY I Sol -'R1 -Harmony far I PR03ECr D-0050530 DATE DRAWN 03-14-2016 DRAWN BY HLLUVIOSO DATE CHECKED 03-14-2016 CHECKED BY APATEL FIGURE A: PV MODULE SPECIFICATION SHEET FIGURE B: INVERTER SPECIFICATION SHEET SOLAR-E4 DI ~ �° LLI W o O U) n Y Y D+ Ln UI Q 3 Q O ce U o Ln §S — rEfigenrycuna50NNYBQY5000TCU5-222a0Yac�-- ' --� +� Accessories j ¢ o o H of u' 1 �Y o: SpecdrAre/Wtbaav RSd85 tnterToce, D: DMd85C&UJ 10 /1 O 8� t - 96 - - i j i . �•-MD44U510 - i �/ J U , fi ,Y2. FANK102 14 r Ul Eki Nw^175 V1 L w o Q 1 CO .62 A4 Cd - 08 10 - " Sfandoid fecwre " O Optional feowre Not available' N o U F 1 Oetµt Power f Roted power - 1 y v ` - -` ' -- '- >' to _v Dataatnominolcondtons Z W u Bunn "Bo SOOOTll15 ` _ Bunn Be 60007E-US Sunn Bo 7000TLU5 ;^Bunn Bo 7700TLU5 Q o x Y Y Y Y Y .Y Y Y ,ce co 20VA2240VAC} 20BVAC ' C 2d6V c s n O 5300 W b�00 W 73fl0 W - 8000 W e J Is GOO GCO V 600 V _ G00 V A r. 210 245 490 J 276 48O V y z e 3 125 S00 V 12S 00 W : 125 aCO.V __ {25:V 150V. _r.. ' - 12SV/-]50V 30Ar 15A Q 30A/15A 30 fi'f 18,A 30A/18A s f�.Fy-......c.....w`. n..>,,...._',_" .... . / - �550 W 50©0 VJ i 5200 W b000 W bCOp 1N 7000 W 6G50 VV i o 7680 W In m 45VA 3000 A ? 5200 VA; 6000 VA G`O40 VA 70DO YA , " _ ," , , bd5� VA s 7ba0 YA Z O 50 a zoa v f . z4a v / • 248 v / a 2�a v / • 2os`v f • 24o`u / • zoa:v / • 2do v / + 183 224 V ; 21 1 26d Y 183 229 V ?17 ..2Gd V I83 229 V 211 - 26d J 163 229 V 21 1. 26d V w, to U Hz f 54 3 60 5 H 60 Ha f 59 3 b0 5 riz GO Hz f �9 3 G O S He W LL 22 A { c 23 A 29-2 A 32 A ----- — �_T ��_ �_ ,77".Q J 1 r ,t SLOTSERRAiED'. Q Lu } C7 (L 1/ i, f 2 ( BOTHSIDES OF ".._. _ N O In w 75 Z .� W M ii DINENSI%6P1 `QAM1HSS 4MHLS = a o2S 46:8 cm B` B 2 2;1 6.57 �:93 W Y X Q - _ _ U 9G 5" 97 Ol 46 �g 97.E 9G.5 _4b S 9G 5 6 96 5% — O a a Lu 'S u ?b a W Yr �a:53 -- �c1' n „..,"7-77 17 fr'3,1.YPE V(FHIWPS) DRNE-.ONSGREV+J.1�' a 440f.519J185:>(143/20:5i73} n ._ :, ' I i. , -' `- . ,-r .r' �:_ :, � 1/ 190. (7� t; f '1 1 7 f,7 51 4: - _._ ._ _ . " �____.,_., _H,�.u_<„_,,,...,.. ._F n .s : a l �. � � _ r t � 1 ii i FIGURE A: INVERTER SPECIFICATION SHEET !'ITEM; . L,ESCaiPrirart QT:Y'3 '1 BRSE,FLAIE QUiCI;H09K 061 i6 :MILL I `LAGsSCkE HEKHEAD-:5L16'x31i1: 18,-BSS: 2' 3, {TUICK"HQOK SrArDARD/L0! HEIGHT,VERTICAL 1.`3 6961'T6 MILL I §., SCREW,SELFTAPPING #12.X5/S 16BS$rM'ILL l 5' WBF.LASHI*; QIJICKHOOK;.S BASE 9zK 1§. X>A37 30030}jMILL' l FIGURE B: QUICK HOOK SPECIFICATION SHEET V1ylp OPPORTUNITY I SPRI - Haanony Solar I PROJECT D-0050530 DATE DRAWN 03-14-2016 DRAWN BY HLLUVIOSO DATE CHECKED 03-14-2016 CHECKED BY APATEL SHEET SOLAR-E5 W F D m a U)N 0 o _SS� N a }&E$ Q G U Z SS� PENTAIR TYPE3R SCRE1'IMVERIVEMBOXES AYDEIICLOSORES TYPE 3R SCREW-COYErt YPE3REIRESANDE?1CLUSURES a�lG"""""� 7 O 7 O O h ~ co a r g � Z of o: of f' < '^ o x x a U 5d pIT SCREW -COVER, TYPE 3R 0 r ' APPLICATION AlZR96 1Z00x8.00x6.00 A - 2.25 1.06 FGGHI 7 7 € Use this enclosure with orwithout knockouts in outdoor - Al2R106 12A8a10.ODxb.00 - A. - 2.25 1D6-` C 0•E-F-G __ - �� r applications as a wiring or junction box. FEATURES 4 05Drip shield top and seam -free sides, front and back Slip-on removable cover fastened with ptated steel screws along 305 x254 x 152 21 �' 3 w o 3 M o I IM x IL.uu A o.uu A- o r 305 x 305 x 152 - 57 - _ _ _ 27 _ r - _,_ - A15Ri26 _, 381x30 x152 --- - ----'---f.26 i_Ob�r_ b CaE'f,G_ - 38tx305xi52 a7 21 ��- - �A �-- ----T----- bottom edge { \iVt Ai6RI26 1600x11.00x6.00 2.25----� 1.06 COE•FG Handles on larger sizes [see table] n . •, D % a1 Embossed mounting holes on back of enclosure Knockouts in bottom of 16 and 14 enclosures 406 x 305 x 152 - 57 27 _-- , - _ _ _ _ ____ ..__. _ _ _ __ __ _ ____. __ _ ,._ _ ,_ li18Ri26'- 1800z12.00x6.p0 "'- A,"1.06LL CO=EF-G �J 1 o o a n N W v gauge 457x805x152 57 27 �. Provision for padlocking r x x P g _ A70R186 18.00 x 18.00 x 6.00 B - 13.00 1.12 ABC-U-E r G H I g �J Z w uiu, o °r Y f No gasketing Al 457x457ri52 - 330 2S _,_,2�OOzi2,00x6.00 __, _,_._W_.0 _ __. _.. _ _ ` - -1.12„ - a SPECIFICATIONS (i124R12d`"'"_._ 13.00 C:p-Ef:G. ;rC Q o 16, 14 0r 12 gauge galvanized sleet g g g ." 610x365x)52 �-- 330 28 _ _ _ _ - _. _ , A24R186 2400z180Ux6AD 8 i3.00 1.12 ABCO-EFG114 a a x N r - x FINISH _ 610 x 457 x 152 330 28 - iAZGA246 2400x?4.OQz6,00" ., p-.13.00._,ADGDEFGtII�j 7 ^ O n axr, ANSI 61 ray of ester powder paint finish inside and out over 610xbtOxt52 - 330-: 28" , :' >,r pretreated surfaces. T 481188 8.0018.001800 A - 225 10G FG H•1 203 x 203 x 203 57 27 I ACCESSORIES gAl2Rt28 t2UDxT2:GOx600 A' 225 t06 COE -6 _ See alsoACcessories. _H r-.M �Sx305z203 57 -- Industrial Corrosion Inhibitors A15R128 15.00 x 17 0012 00 x 8.OD p - 2.25 1.U6 C•D E F•G Electric Heater 381 x305x203 - 57 27 -- ITMOR12& - x 1600x1:2:90x800 -p' =' -' f 225 112 COEF-`G 6roundina Device 57- Mounting Bracket Kit A24RI68 24.00x16,00x810 "�- �- 8 - ---- � 13.00 � � - 1.12 C-O-E-F-G U) Touch -Up Paint 610x407x203 - 330 18 Z INDUSTRY STANDARDS BULLETIN: A90S3 _ ' aAt8Ri88°;�,'',18.00x18!Oaxff00 ., "B -_ t3.00 ii� A&CDEFGA•i" d G57 x 457 x 20' 33U 28Al ti _._ _,.. ,_ _ ._ UL 50, 50E Listed; Type 3R; File No. E27525 A24R168 2400x18.60x800 B - 1300.. 1.12 A 8 C I) E F-G H I In Q cUL Listed per CSA C22.2 No 94; Type 3R; File No. E27525 610x457x203 - 330 28 0 U A24R20a 24062000x80D B I370 " 11T ABCU"€FG 41 (� w Q U_ NEMA/EEMAC Type 3R 610x50Bz203 33Q :, 28 z H Do Z m U IEC 60529, IP32 A24R248 2400x2400x805 C 12.19 13.00 112 ABCitEf6111 Q LU 610x610x203 310 336 28 - _ � - In Z OO L U) Standard Product �A3URZ48 �� 3000z74:DOz8.f0 ', .„- C�� 15;t9, - 13.00, =' 112 A0C'bEFGN{: - Z a J M ° 762x610 203 . 386 330 28 � ' - ,, ,-_ ,. ._,. _ _ , - - a _J - , t A48R368 48.00 x 36A0 x SAO C 24,19 33.00 1.50 A-B-C-D-E-F•G-H-1 1219x914x2D3 614 836 36 W U N I- x Q CA18R1810 , ` 16:00 x 18.0Dx'10:00 t.t2 .-B+GO E-f-G•Hd ; " - - �C � xD U) O O �' -, ., - 48•:z. : 5Y:# 102x702x.101 �. :. 457k459x54. 33tl 1 - 2 M QIn N Z J A6R44 6.00 x 4.09 x 4.00 A -• 1.88 1.06 6 C A24RIBID 24.00 x 18.DU x 10.00 8 - 13,00 1.11 A-8-C-0•E-F•G-H•I N Q V- 152x102x102 - 48 27 Al2R44"-. i%Aax4.D0xb.p0 .- ^ " ,,, R-; -__--'-__'I- IA6 , B-C 610x457x15 - 330 28 A24R241D- , 2GO0x24,00x100tl . C- . ' '- 12a9 1.3.00'; 7.iZ-"' A`0-C=06F-G-H" Y,, 4._ . 7. ::. -.` 3Dax102x7Q2 -' 8 ., 2 _ w _ .�_ _ - bi0x61Dx254 31it 330 2fl > . _. _ _ , __. _ .. _... - . , _ -- _ .__ A6R64 6.00 x 6.00 x d.00 A - 2.15 i-06 g C-0 A30112410 30.00 x 24.00 x 10.00 C 15.19 13.00 1,50 A-B-C-D E-F•G•N-I U J 152 z 152 x 102 - 57 27 762 x 610 x 154 386 330 38 _J ABR64 , d.QO x 6.D0 x 4.D 0,.,.:. A-_• Z.15%" 1A5; g.C.p. ., fAZ4R2412'a 24.00x24.DOxt2-DO C .• ,; 12,t9 i3:0U' __ t.1Z_�. ,r _ _A-6-G11EFG=W1 - R s T, L..,",-...,...,.w a........._, _..., _..xc..u..«:. '2 �..:��" .. :fie �� d '15D" A8A84 6.00 x 8.00 x 4.00 A - 2.25 1-05 F-G-H-I 8.0 703 x 203 x 102 - 57 27 .19 ■ � A30R3D12 30.00 x 30.1119 x 12.00 C 1519 27.09 i z ,L A B-C-D E F G•H•I 1 1y, �' 762 x 762 x 305 386 686 gF�r E a c I O _ _.. _ . _ .... , ,, ,.,",.: .. .. ,,, ..,- 4 ,. ,.. _ , ,. ,- ,_. ,, _; a.; _. ,D6 :. FGH1, , A1DR84 ,„ 10.00x8.00,x 00 <,.. A.,: _, 215., „J ;;r", 7.:. ,.. • .. , , _ ... .. _. � , . , . ., , , _ prent ,A36R3D1 . - ..,,_ tibADx3a.Q T2Aa..,. ,. c: � 1e.w 27D6« , �n� ,., „� ._, ,..E , .I.,.� 10 i s ABd .EG1L,."f , <: ":414X762'x385. rb2 �•s�-s m Al2R84 1,00 x B.DO x 4.00 A - 2.25 1.06 F-G-8-1 305 102 5'1 27 ,_ A36R3612 36 00 x 36 C0 x 12 00 C 1819 33.00 F# rrJf �'* ABC- F G• •I 914 x 914 462 838 384;F o x203 x _. aa< r, 1U.J0x10,6Ux..0D�-.. ., ,. A;.. ,•_:..- - ;= 2.25:_ 1:U6', C-0•E•F•G _ w _ x305 `A30R3D1b. , •,_ 30:0Ut30.GDx16.UU ;. C--i.r.19 = „ 27.00 -:- s; • �"A-B-GO-FcF-G,°d•t„ ' _ _ o !. b ,,z 2 4 .02 ,., < _ 57 r, . , . ,. , 27 ...,. a.. ,.._5 a x1,,.�....,,,,_w.,r,,,,��,�a�_.m..�-,,�.-�_�,,_,_..�._._-��_.�_,_..w:>.__.__� s_,,:.,.__..w•.�. .,_:�:. _,.,...,�._•..,.,w.w s ^ ° �" - , ,;' 7b2 x 62 x. U6 h86 3 `7 � 3e6 a ._,_W_,�,�...,,,�,.,�,:..,,w�,.._t_,_:u...,_��.,,,.,:w.__,._��__rr,w_-_u:;_�_-,.�:..�_,�___�.�_w-.-.,.,,..::;::aw,_„";».,�:_z<.,..',,�,_,�.,c;ws,...�,_.�.,�...�. �a o A11R704 305x25001024.00 A = 27 C-0-E-F-G A48A3dt6 C ��VIEWED `A _C•pE_F H�xf�� COMPLIANCEN 5572.25 1219x914x4066.00 6144 8380 ., ,., .,•n, , .. , ( 1, _ . 5i 27-- 305 x 7.5 x 02 i 4 � 4: x .00 :_; _ t B 0 ,A Rt4NK _ 4.DDx 0Q : �,: , _ _ n: .,-,, _ 2. D ;- F U : " i 1 TO 48 51 02X 02 z 1 o _ « .: , • ;. , . . , ,. , : ,. a ._ ,. A18R126��- 16.00zi2AUx4.00 A u� - 2.25 1A5 GO-f-F-G ,.•. . _0016.00x4.. .�,u <. a _ � _ �__ � u.�BiJlP�h1Et� �� AdR64tIK 6.Opx6A0z4.00 A - 2.25 1.06 N 457 x 305 x 162 - 57 27 152 x 152 x 102 - 57 27 p...F_g_H.l >, ... d18R184 ,. , t8:60x10a0xdA0>. �, : _, , 8. • �-_ ••..: . , -. x. .., t3.05- , a ,_,:. 1a2, A. C 0 E _ € A 2 ,, `d8R`d4L4K., - g.OJxd.6DX4.00 .,. -' � 1. 5 ,. ::' �, tAd"" w ; , d x45 x:102 ry_ ,_, _ , 33 .. . .. ,, 1<. <, _,.. _.,1D3x152x1 2, � o A6R66 6.08 x6.00 x 6.00 A - 225 1.96 B-C-Q AOR84NK 8.00 z 8:00 z 4,00 A - 2.26 1.06 - 152x152x151 - 57 27 203x703x102 - 57 27 -.._. Al2R84NK IZOO X0.00x4A0 A - 2.25 1,06 AlOR8« 86 i 10AOx8A0x6.00 A". - 225 1.06 F-GH1 254 x 203 x 152 - 57 27 305 x 203 x 102 - 57 27 IUAOx U.00xb.00,_„ _. , A,. 2:25<, 1.Q3 C 0 ET G ,. AtOR364NK .. _, , .f0.U0x.10.00z .OQ A €,, -', . ,:.. 2I�r abo.,, I ..., .. � ,,, , � ,. • --, .. ,.., ,.•,_ ..: `_• ..">: 27 �#-: , , , r 154x25«x. 2 .< -.,r OPPORTUNITY SPRI - H nn n Solar Y -Al2RI04NK - J-TM 12.60x10.00x 4.00 A - 2.25 w 1116. - PROJECT D-0050530 305 x 254 x 192 - 57 27 DATE DRAWN 03-14-2016 1 CONTRACTOR SU,B7EGTTO CHANGE WITHOUT'P40TICE EQUIPMENT PROTECTION SOLUTIONS EQUIPMENT PROTECTION SOLUTIONS PH 763.422.2211 • FAX 763.422 2600 • HOFFtBANON€-INE.COM CONTRACTOR 2 Spec-00263E Spec-0D2b3 E DRAWN BY HLLUVIOSO DATE CHECKED 03-14-2016 s _7 CHECKED BY APATEL 3 SHEET FIGURE A: JUNCTION BOX SPECIFICATION SHEET PAGE 1 FIGURE B: JUNCTION BOX SPECIFICATION SHEET PAGE 2 SOLAR-EG . �L 1 ,LB `t' 0 t rn m o r9a N Q � U 0 C Z Ln s � 0 mSUNPOWER g MONITORING SYSTEM 0 O 0 v a-PV SUPERVISOR v J U x� ^F ,= �Y Vi ��°;is'� X £✓ � C.e�� ,k_, �, ' ram' �' -, �� Syste nechon Dt m Co agram E R S U N PO 0 0 Q N N ce U Onske Cat5EthemetIritemeVLAN by ,,,, r �` } m Z Cable COLOR KEY LU 0 ^ AC Power SunPower supplied component or cable Supply Installer supplied, SunPower specified r�LANt CAN P`� '� ;O Q DD Q LL CO x N Safety and Installation Instructions f N 0 $ PYSupervisa I w� . Optional a United States and Canada y-----------------P1 _ P2 °; — i r Belden 3+06A Belden 3106A 1 SunPower Accessary Ktt or Cat 5 or Cat 5 1 s i # $ Dalsychalned SunPower Cable Etbomot Ethernet I i-'3' Bolden 3106A [ �' Belden 3106A— Accessory Klt I Cable Cable �T DB9Adapter I lnvener+, tayancr2 lnyniiern' I t This document applies to all SunPower modules listed in Table 1. `qt I MET System Station Production RJ45 ems., RJdS or R145 or �, �` Z J PV Meter I Temunal Teiminal Termtnal,;'; O $ I aludc,', s^Bloek 8I$ck "° "' �` y .. This document includes references to SunPower E-Series, X-Series, and NE In Q ` modules. These modules do not have grounding restrictions and all are 0 a) U �. I t compatible with high -efficiency transformerless inverters. (D w -_-I Q G a" ..�,..F S < co z d X 9 Mechanical Data Plus Enclore su, I ;x u re subject to change without notice. Contents of this manual a ) g `� �. LL , , U) m , SunPower SPRf Dimensions SPRm Inverters, Supported 76(26) 1 1) X 3.03(77) For the latest US &Canada manual please refer to www.sunpower.com/PVlnstallGuideUS a W w <N t~/1 H X Q X$ , X 4.31(1 1 Inverter Compatibility SatCon and Sonterno Inverters W x H x D, in (cm) ) t ° 3e sD O O CY 0 -- SunPower Corporation Q r, N z Q r t Weight r Number of Inverters t 190 (Up to 30 /Packed Weight, Ibs (kg) g k wwwsunpower.com r-, N CL Supported g t U Lu Wired from PV Supervisor to Customer LAN; Enclosure Rating w System Connect ionType Wired from PV Supervisor to (optional) Cellular i modem. Optional WalWount Hardware Mounting- 1 Available t ' Transmission Range 330 ft (100 m) via Ethernet Operating: -10 to +60 C Operating Temperature r st�rage: -2010 +80 C t .az ,,fit q -i t a c N l N O o — ® Power Source External AC Source (100 - 240 VAC,.< 5W)%Ji Gu!liJ ('L( ent _ �: 4Warranty7andCer>ttftcahons� Data Storage 60 Days MAR 3 0 2016 Warranty 5-year limited warranty Upgradeability AutomatcFirmwareUpgrades Certifications FCC Pad 15, Class A compliant �I RZE-EVIEUiIEo FOR CODE: COMPLIANCE k Revip--weci By �� °` �. We L&u arty StfeRequt�ements ,<; �f�r, w Microsoft Internet fxploterO b 0, 7;0 • SunPower SPRf , SPRm Inverters, SupportedASatCon Browsers, ►yyozillafirefox 20, 3-0, Safari .3'.1,1and Sdnterno Inverters Login Webs ite www.sUnpo*erm6nitor.com • Supported Cell coverage � Ilk Document 00144158 Rev S P/N 100345. OPPORTUNITY SPRI - Harmony Solar pRWECr D-OD50530 sul.>P0wERaa,asuNPoweP1.90Wa, or r9qt�raIr. d-akrsa,Pa„rercaporo��n; sunpowercorp-com �'t '` DATE DRAWN 03-14-2016 ,� n 0 Febrwy 2011 SunPower Caporaion. AD nghls reserved.5peahcaio,e irKluded m ihls daahaaare sib1eo lochonrwahout nm6. Document p 001 b0505 Rev / IT�,EN a DRAWN BY HLLUVIOSO DATE CHECKED 03-14-2016 3.a�i.� $._.a��.�..a,-�....c� �.�s'a`p s: ts. �` �.�`swc - a..._...-,�'- ..a.'�-. �, � _. ,.�. r��✓..�.�+�, _ �.�...=x'.,.'.e�`.'�...�_:aa��...�sa�..�zs-��,� �`w`�.vwi, � ....x �-. j CHECKED BY APATEL SHEET w FIGURE A: PV SUPERVISOR SPECIFICATION SHEET FIGURE B: MODULE INSTALLATION MANUAL PAGE 1 SOLAR-E7 SUNPOWERS Safety and Installation Instructions (United States and Canada) 1.0 Introduction This manual provides safety and installation instructions for UL Listed SunPower photovoltaic (PV) modules that have the UL logo on the product label: C @us IMPORTANT! Please read this manual in its entirety before installing, wiring, or using this product in any way. Failure to comply with these instructions will invalidate the SunPower Limited Warranty for PV Modules. 1.1 Disclaimer of Liability The installation techniques, handling, and use of this product are beyond company control. Therefore, SunPower assumes no responsibility for loss, damage or expense resulting from improper installation, handling, or use. 1.2 Underwriters Laboratories (UL) Listing Information This product meets or exceeds the requirements set forth by UL 1703 and ULC/ORD-C1703-01 for PV Modules. These Standards cover flat -plate PV modules and panels intended for installation on buildings or those intended to be freestanding. To satisfy the Listing for this product the modules must be mounted with a rack or standoff structure. The Listing does not include integration into a building surface because additional requirements may apply. This product is not intended for use where artificially concentrated sunlight is applied to the module. 1.3 Limited Warranty Module limited warranties are described in full in the SunPower warranty certificates obtainable at www.sunpower.com. In summary, the Limited Warranties do not apply to any of the following: Modules which in SunPower's absolute judgment have been subjected to misuse, abuse, neglect or accident; alteration; or improper installation, application or removal. This includes, but is not limited to, installation, application, or removal by any party other than a SunPower authorized dealer; non -observance of SunPower's installation, users and/or maintenance instructions; repair or modifications by someone other than an approved service technician of SunPower; power failure surges, lightning, flood, fire, accidental breakage, or other events beyond SunPower's control. 2.0 Safety Precautions Before installing this product, read all safety instructions in this document. DANGER! Module interconnection cables pass direct current (dc) and are sources of voltage when the module is under load and when it is exposed to light. Direct current can arc across gaps and may cause injury or death if improper connection or disconnection is made; or if contact is made with module leads that are frayed or torn. Do not connect or disconnect modules when a current source is energizing the conductors. Modules may contain high voltage when interconnected with other modules. • All installations must be performed in compliance with the National Electrical Code (NEC) and any applicable local codes. • For Canadian jurisdictions, installations shall be in accordance with CSA C22.1, Safety Standard for Electrical Installations, Canadian Electrical Code, Part 1 • There are no user -serviceable parts within the module. Do not attempt to repair any part of the module. • Installation should be performed only by qualified personnel.. SUNPOWER CORPORATION Safety and Installation Instructions - Document 001-14158 Rev S • Do not stand on, drop, scratch, or allow objects to fall on modules as it may damage and void the warranty. • Do not place anything on the modules, even for a moment because resulting residue may damage or stain the glass surface. • If the front glass is broken, or the backsheet is torn, contact with any module surface or module frame can cause electric shock. • Broken i-boxes or connectors are electrical hazards as well as laceration hazards. Installers should remove any such module from the array and contact SunPower for disposal instructions. • Do not install or handle the modules when they are wet or during periods of high wind. • SunPower recommends a conservative minimum cable bend radius of equal to or greater than 40 mm (1.5"). • Contact SunPower if maintenance is necessary. • Save these instructions! 2.1 Fire Rating The module fire rating is Type 2 per UL1703, 2013 edition and Class C per U1.1703, 2002 edition. Fire rating classification for any PV system using UL1703:2013 can only establish a fire rating in combination with the mounting system ratings normally found in the mounting system installation instructions. 3.0 Electrical Characteristics Electrical characteristics of the modules are described in Table 1 below. Each module contains three bypass diodes. For all modules, the maximum series fuse rating is 15A. Table 1: Electrical Characteristics' Maximum Rated Power voltage at Current al Open Circuit shortCircuitSystem Module !W) Rated Power Pow", Rated Pow, Voltage vac Current,,IsIsc (A) Voltage UL VmpP Impp(A) - IV) Vmac SPR•x22.360-COM 3000 360 60.6 5.94 69.5 6A8 5PR-x22-360 600 SPR-X21-345-COM 3000 345 57.3 6.02 68.2 6.39 SPR-X21-345 600 SPR-X21-335 335 57.3 5.85 67.9 6.23 600 SPR-X21-335-BLK SPR-X20-327-COM 1000 SPR-X20-327 327 57.3 5.71 67.6 6.07 600 SPR-X20.327-BLK 600 PR-x22-275 275 44.8 6.14 S2.7 6.54 600 PR-x21.255 255 42.8 5.95 51 6.3 600 SPR-x20-250-BLX 250 42.8 5.94 509 6.2 600 SPR-X21-245 245 42.8 5.72 50.8 6.08 600 SPR-X19-310 310 57.3 5.41 67.2 532 600 PR-X19-330-BLK PR-X19-240-BLK 240 42.9 5.61 SO.6 5.98 600 SPR-EZD-440-COM. 440 72.9 6.04 865 6.5 1000 SPR•E2"35{OM 435 72.9 5.97 85.6 6.43 1000 SPR-E39-010-COM 420 72.9 5.62 85.3 6.01 1DD0 PR•E20.327 600 327 54.7 5.98 64.8 6.46 SPR.E20-327-COM 1000 SME19.320 320 54.7 5.86 64.7 G.24 000 SPR-E19-315 315 54.7 5.76 64.6 6.14 600 5PR-E19-310-COM 310 54.7 5.67 64A 6-05 1000 PR-EIB-295-COM 295 54.2 5.45 633 S.83 1DD0 PR-E2D•245 245 40.5 6.05 48.8 6.43 600 SPR•E19-235 235 40S 5.8' 48.4 6.175 E00 PR•230NEBLK 230 40.5 1 5.68 1 48.2 6.05 600 3.1 Bypass Diodes I For all models the Maximum System voltage for IEC standards is 1000V and maximum series fuse is 15A. For models not shown here, please contact SunPower technical support or visit www.sunpower.com. Electrical parameters are measured at Standard Test Conditions (STC). 82 2015 SunPower Corporation. All rights reserved. SpecifiraLlons included in this manual aresubject to changewithout notice. SUNP WERG Bypass diodes are facto ryinstalle d and are not user replaceable. The diode configuration for 96 cell modules is 2 diodes for 2 strings of 24 cells in series, plus one diode for a single string of 48 cells in series. For 128 cell modules, the configuration is 2 diodes installed for 2 strings of 32 cell in series, plus one diode for a single string of 6.4 cells in series. The diodes are one of the following ratings; 1. Schottky type, 15A, 45 Peak Inverse Voltage (PIV) for 96 cell modules. 2. Schottky type, 20A, 45 PIV for 128 cell modules. 3. Schottky type, 20A, 100 PIV for 96 and 128 cell modules. 4.0 Electrical Connections Modules may be connected in series or parallel to achieve the desired electrical output provided certain conditions are met. SunPower recommends using the same brand/type of do 'home run' connector as on the module it connects to. This helps insure compatibility. 4.1 Equipment Grounding To reduce the possibility of electrical shock, ground the frame of the module or array per NEC before wiring the circuit. In order to install in accordance with their UL Listing, SunPower modules must be grounded using grounding hardware that meets requirements for grounding systems In UL 467, UL 1703, or UL 1741; on anodized aluminum frames. SunPower recommends using one of the following methods of grounding the module frame. In addition, to avoid corrosion due to the use of dissimilar metals SunPower recommends stainless steel between copper and aluminum. For the Generation 5 ((35) frame, only methods 1 and 2 apply. 1) Attach a lay -in lug (Ilsco GBL-4DBT, Burndy CL50-DB-T or Tyco Solklip 1954381- 2) to one of the grounding holes on the module frame, and attach the ground conductor to the lug. Use stainless steel hardware (bolt, washers, and nut). Use an external -tooth star washer between the lug and the module frame in order to pierce the anodizing and establish electrical contact with the aluminum frame. The assembly must end with a nut thafs torqued to 20-25 In -lb (for a #10-32 bolt). A lock washer or other locking mechanism is required to maintain tension between the bolt and the assembly. The conductor must be attached to the ground lug using the lug's setscrew. Refer to NEC 690. 2) SunPower modules may also be grounded through the use of SunPower IFF clips which are UL Listed (1703 and 1741). IFF clip torque value is 35-45 m- Ibs for a 1/4-20 or M6 bolt, but may be higher in specific applications. When using IFF clips, the module mounting system must be grounded as per NEC 250. 3) SunPower modules may also be grounded through the use of an Everest Solar Systems Mid or End Clamp assembly. The assembly consists of a stainless M-K2 slot nut, WEEB KMC grounding clip, Everest Solar aluminum End or Mid clamp, stainless M8 bolt and stainless Belleville lock washer. The WEEB is placed under the bottom edge of the module and the clamp is placed on the top edge of the module. The bolt captures the Bellville washer, the clamp, the WEEB and the M-K2 nut and must be torqued to min. 10.3 ft-Ibs. This method is valid when the modules are being secured to Everest Solar aluminum Dome D1000, Dome S1000 or Dome SD mounting components. A SunPower IFF clip #509206 may be substituted for the actual Everest Mid Clamp itself, but only when the modules are being installed using SunPower's D10 or S10 product; with 72- and 96-cell modules only. The IFF clip must be torqued to 35-45 in-Ibs. When the end clamp is used for securing the last module in a row, the last module must be separately grounded when servicing the adjacent module. Note: Method 4 is evaluated to UL 1703 by EfL. As such, the use of these devices Is not considered part of the UL Listing of these modules. 4) If the Unirac SOLARMOUNT system is used for mounting the modules, grounding is achieved using either a BURNDY Wiley WEEB-UMC or WEEB- UGC-1 grounding clip in combination with Uniraes Mid or End clamps and 1/4-20 bolt and flanged nut, torqued.to 120 in-Ibs. If the Solarmount-I system is used grounding Is achieved with the Un!Rac UGC-2 grounding clips in combination with UniRaes Mid or End clamps and Sliders with a 1/4-20 bolt and Flanged nut torqued to 120 in-Ibs. Note: Method 5 was evaluated to UL 2703-by TUV. As such, the use of these devices is not considered part of the UL Listing of these modules. SUNPOWER CORPORATION Safety and Installation Instructions - Document 001-14158 Rev S 5) SunPower modules may also be grounded using a WEEB-9.SNLground clip in between the module and supporting structure. This combination is secured with a 1/4" stainless steel rivet or a 1/4-20 by 3/4" zinc -plated bolt with zinc -plated K-nut torqued to min. 6 ft-Ibs to secure the module to minimum 12 ga. G90 coated steel or Z-purlin, either painted or unpainted. The WEEB- 9.SNL is for single use only. 6) Other grounding methods may be used in conjunction with a module mounting system tested to UL2703. For these installations, the SunPower module and frame style must be tested and part of the instructions for the listed mounting product. The SunPower module must be installed in accordance with these instructions as well as the mounting system's listed instructions. 7) SunPower G5-frame modules may be grounded through the use of an InvisiMount'" mid clamp that bonds the module frame to the InvisiMount" rail. InvisiMountr" rail sections must be bonded and connected to a grounding conductor using methods and materials specified in the InvisiMount- manual. When using methods 2, 3, 4, 5 or 6 the module mounting structure must be grounded as per NEC 250. To ensure system safety and structural integrity, strict adherence to application -specific SunPower documentation is required. 4.2 System Grounding Review the Table 2 below for the proper grounding techniques for the installation of your particular SunPower modules. Table 2: Module Groundine Kev Module Model Grounding Key' SunPower E-Series, X-Series, and NE modules Legacy modules must be have no grounding restrictions: positively grounded: SPR-EYY-ZZZ SPR-XYY-ZZZ-BLK SPR-ZZZE-WHT-D SPR-EYY-ZZZ-BLK SPR-XYY-ZZZ-COM SPR-ZZZ-WHT-D SPR-EYY-ZZZ-COM SPR-ZZZNE-BLK-D SPR-ZZZE-BLK-D SPR-XYY-ZZZ SPR-ZZZNE-WHT-D SPR-ZZZ-BLK-D IMPORTANTI For optimal performance, SunPower modules listed above as needing positive grounding must be configured as described. Failure to comply with this requirement will reduce system performance and invalidate SunPower's Limited Power Warranty for PV Modules. 5.0 Module Mounting The SunPower Limited Warranty for PV Modules is contingent upon modules being mounted in accordance with the requirements described in this section. 5.1 Site Considerations SunPower modules should only be mounted in locations that meet the following requirements:rr-�� ((�,{{ O eratin Tem eratu A}}' :r�r modules must onl�e m8urtte�itt 0 e 0 environments that ens r`ekhe Nr(operate within the:fWpn0CapL Rf.t,,Z6nt Mr5li-i-P n�-40°C to +85 'C Operating Temp e` .i h!{�(� , G �u r tl ao toll$. Care should be taken t�n1� ��{en"ntilatbn behind or underneath the modules, especially in hot envirbtlhtehn �y11EU FOR C: OE COMPLiANCE Design Strength: SunPower m Qtesg�IeL Ito meet a I$ �tum posjtiy � (or up/down, e.g. wind) and negative (or downward, e.g.`s36tic or snow load! design pressure described in the Table 3. Design strength of 240013a wind load corresponds approximately to a wind speed of 130 km/h (approximately *800 Pa, per IEC reference) with a safety factor of 3 for gusty winds. Modules have also been evaluated by UL for a maximum negative or positive design load of 30 psf, Figure 1: Mounting locations for SunPower Modules shows where to mount to the module frame. Table 3 defines mounting options, attachment locations and resulting load rating achieved for each, module configuration. 7- YY is a number ranging from 18 to 24 and ZZZ is panel wattage. Page 12 Ili 0 2015 SunPower Corporation. All rights reserved._ specifications included in this manual are sublet[ to change without notice. Page 13 in � B � � � b W o 00 s in i, N in oil } } 0, a 3 a c� 0 Z U o o O ❑ in N t O 0 Z �€ K QZ: ❑ �aa o� U h m Z Q )_ (D U) Z = J a of L11 W Y to to O Q M N 1 in N O .--i OPPORTUNITY PRO3ECr DATE DRAWN DRAWN BY DATE CHECKED CHECKED BY ,-H O In rn Q Z O IL Q U O Z f- W n. Z) U 1- in w 3 0 m in a to a, n U R V) O m t m o 0 v in 0 J M Z O P Q U Y LIL -� U m w a M � in o;6 .I Q X Q � 0 CL J U) Q U of H U w J w SPRI - Harmony Solar D-0050530 03-14-2016 HLLLMOSO 03-14-2016 APATEL FIGURE A: MODULE INSTALLATION MANUAL PAGE 2 FIGURE B: MODULE INSTALLATION MANUAL PAGE 3 SOLAR-E8 SUNPOWER° Figure 1: Mounting locations for SunPower modules Table 3: Mounting Configurations and Load Resistance Module Mounting configuration Configuration (valid mounting location in mm) Load rating Wind (up & Oasis Frame Pressure Center down) / Snow type End clamp or Frame mount Module (frame mount clip holes For oasis (down) size color) (Al) (131) (Cl) only 300.400 4000Pa / 8000Pa 72 cell G5 (black) 50-300 50-400 4000Pa/4000Pa 300-400 3000Pa / 6000Pa 96 cell G5 (black) 50-400 50-400 3000Pa / 30001'a 72 cell G3 (black) 50-250 150-380 332 240OPa / 54001'a 96 cell G3 (black) 150-380 332 96 cell Any Silver 150-380 332 128 cell Any 400-460 433 240013a / 240OPa 128 cell Any Center 215OPa / 310OPa Excluded Operating Environments Certain operating environments are not recommended for SunPower modules, and are excluded from the SunPower Limited Warranty. 5.2 Mounting Configurations Modules integrated into or mounted over a roofing system must be mounted over a fire-resistant roof covering rated for the application. Modules may be mounted at any angle, from horizontal to vertical. To reduce soiling, modules should be mounted at a minimum of 10 degrees. Residential (black) module frames have two profile types, G3 and G5. Commercial (silver) module frames have permanently attached stacking pins. Mounting system hardware used with commercial modules must account for the presence of these stacking pins. Mechanical specifications for modules are shown in Table 4. In order to prevent water from entering the junction box, which could present a safety hazard, modules should be oriented with the junction box in the uppermost position and not be mounted such that the cell faces downward (e.g. on a tracking structure that positions the modules with the junction box facing Skyward during sleep mode). For 128-cell modules a minimum of 4" of clearance between the module frames and the structure (or grade) is required; for all other modules a minimum of 151 of clearance is required. The module is only UL Listed for use when its factory frame is fully intact. Do not remove or alter the module frame, and do not create additional mounting holes because doing so may compromise the integrity of the frame. Modules may be mounted using the following methods only: SUNPOWER CORPORATION Safety and Installation Instructions - Document 001-14158 Rev S 1) Frame Holes: Secure the module to the structure using the factory mounting holes. Four 1/4" stainless steel bolts, with nuts, washers, and lock washers are recommended per module; tightened to a min. torque of 10 in- Ibs. Refer to Table 4 for the module dimensions and hole locations. This method has been certified by a third -party organization according to UL 1703. For frame hole mounting, modules must be secured using the holes located at 322mm from the short end of the module for 72 and 96 cell modules and 433mm from the end of the module for 128 cell modules. For carport installations the supporting structure has been pre -drilled. For 128 cell modules for carport assembly, modules must be secured using only the holes located 433mm from the ends of the module and hardware described above in Section 4.1, Item S. See Figure 2 for carport assembly details. 2) Clamps or Clips: Mount the module with the IFF clips on the longer sides of the module. The centerline of the clips must be 2-16" for G5 frame (6-15" for G3 frame) from the corner of the module. Ensure that the clamps are of sufficient strength to allow for the maximum design pressure of the module. The IFF clip hardware must be tightened to a torque of 35-45 in- Ibs. 3) End Mount: End mounting is the attachment of the shorter side of the module frame to a supporting rail using IFF clips tightened to a torque of 35-45 in-Ibs. The centerline of the clips must be 2-10" from the corner of the module. The end -mounting rail and clips or clamps must be of sufficient strength to allow for the maximum design pressure of the module. Verify this capacity before installation. 4) Everest Solar Mounting System: An Everest Solar Mid or End Clamp can be used to secure the shorter ends of the module. When using Everest Solar mounting hardware. The Everest Solar stainless M-K2 Slot nut is placed in the channel of the aluminum Dome D1000, Dome S1000 or Dome SD mounting component. The WEEB KMC grounding clip is placed under the bottom edge of the module. The Mid or End clamp is placed over the top edge of the module frame and secured to the M-K2 slot nut using a stainless M8 bolt and stainless Belleville washer tightened to a min. of 10.3 ft-Ibs. A SunPower IFF clip #509206 may be substituted for the Everest Mid Clamp, but only when the modules are being installed using SunPower's DSO or S10 product. Two clamps must be used on each of the shorter ends of the module; on 72- and 96-cell modules mounted in landscape orientation only. 5) SunPower-specifled or SunPower-supplied mounting systems: Mount modules with strict adherence to SunPower documentation, using hardware systems supplied by or specified by SunPower. 5.3 Module Handling Use gloves when handling modules. The module glass is sensitive to oils and abrasive surfaces, which may lead to scratches and. irregular soiling. Do not place modules such that the glass comes in contact with abrasive surfaces, and minimize any contact with the glass in general. Do not place anything on the modules, even for a moment. Remove any fingerprints by washing the module glass as described in Section 6.0 below. 6.0 Maintenance and Cleaning Trained SunPower dealer or trained SunPower support personnel should inspect all modules annually for safe electrical connections, sound mechanical connections, and freedom from corrosion. Periodic cleaning of module glass has resulted in improved performance levels, especially in regions with low levels of annual precipitation; therefore SunPower recommends periodic cleaning of the modules. To clean a module, wash its glass surface with potable, non -heated water. Normal water pressure is adequate, but pressurized water (up to 1500 psi) may be used. Some fingerprints, stains, or accumulations of dirt on the glass may be removed with over-the-counter glass cleaners (such as Windex' or equivalent), or with a 3% soap -and -water solution. For smaller systems, wet the module glass with the solution, let it stand for five minutes, and then wet them again and use a soft sponge or seamless cloth to wipe the glass surface.in a. circular motion. For large systems, wet the modules with the cleaning solution, let them stand for five minutes, and then rinse them with high-pressure water or a soft squeegee. Do not use harsh industrial -strength cleaning materials such as scouring powder, steel wool, scrapers, blades, or other -sharp instruments to clean the module glass. Use.of such materials will void the product warranty. 0 201S SunPower Corporation. All rights reserved. Specifications included in this manual are subject to change without notice. SUNPOWERG Table 4: Module Frame Detail SUNPOWER CORPORATION Safety and Installation Instructions - Document 001-14158 Rev 5 Platform .- c, Module mounting and ground F ole'detafl Frame Profile RESIDENTIALONLY 72 CELL MODULE FRAME DETAIL 96 CELL MODULE FRAME DETAIL SIDE FRAME PROFILE -798mm (31.41n) - (O.I9inl �i -754mm (29.7in] � Dr¢a tialcK I2X 0 6.6mm —r — 1046mm 141.2in1--'", 4x (r74.Bmm [0.19mj --. I— 1002mm [39.4in] Drain Ho!os 12X 0 6.6mm I 1� I'l-"Airg Pule_ c Moulding lioles Vail , 70rcm K7 '. R t F O G C-Wlinl Residential E E S 3 d�6r Modules I OX 0 4 Zmn, E E F E (, i7i^]---.r s5 ri N I i E . �n E lOxGd.2mm i 12 P END FRAME PROFILE L;•"vad tines [0.17,n] 1 I- L Ground }ialesJ � r i°r+" (Front Vic-} Flcthod l: 46mm (Front View) (1.!Sin] i m , ! 1 '�' Fmme Hole (1,8in] - Locm ]' ' r uos ,cr t RESIDENTIAL G5 FRAME ONLY •COMPATIBLE FRAME) 72 CELL MODULE (NO MOUNTING HOLES) 96 CELL MODULE (NO MOUNTING HOLES) SIDE FRAME PROFILE 793A7+r:m _— 131A2in]'--�1 _T , 10:6rnm 1 i•11-IOIn) —.. �� I ic,acmm .. rry` ss•.,, II I 14 e rl> I Residential Modules u Jq �_? END FRAME PROFILE v.znm L-, ur 1 I 13 sI + I il$inj L- n6mm [Laltr,l� 001 T� '�ae�nl FOR • • +M-E) MODULES ONLY, •STACKING 96 CELL COMMERCIAL MODULE 128 CELL COMMERCIAL MODULE SIDE FRAME PROFILE 4x 4)4.8mm i�--1046mm [47.21n]� t ] 0.19in 1002m1n [39.41D �1046mm[412in)---]IUj`I !— / J J.Ir �d ¢vl Drain Hoh:i� _ 12x 06.6:nm hlounring Holes 71 � �c tn.tm» c /';:•-` l l [r'' {'�;s Ytt I e ' i4 PT q o 8x 04.2mm kd,6x0.6soR.m[,rn,j .o , c wo;wms wler � A ^ Y{dt7Xil ' Commercial N.tTinl E E EE Ground Hal E E E E �_-- I' _ � VI M. r p�ery� 'V EWtf1`St�iltirig �?kg E C Modules $ N n Q 4x 0 G. i Omni to.24in] -t Stacking Pins •Back ylew) ( o6.M_ .g s-+m 11 I' ' 4 L Bad:yenl .etilE QdDA%PROFILf 398mm (15.7in] (front view), ns.7 iN Iwm [3.2m;� 0:1'In (rrone�teat 4bntm [t.&n] F aelhod 1: Frame aoly 1 I ( CI�n7sl+ Locations Page 14 111 ® 201S SunPower Corporation. All rights reserved. Specifications included in this manual are subject to change without notice. 'L'Z-- R i j DvjoLI JMPL Page 15 in �8 S v 6 LU w O 0 no U) in !n } 7 0 m N to a m 3 < U C �� O O v O in tiV3 Z < m rr o 00 €€ �F o < = x g a . U9a o ii O 9 U E LU Z = a LU t0 Q M r--1 Ln OPPORTUNITY PROIECr DATE DRAWN DRAWN BY DATE CHECKED CHECKED BY f u J W F- lo 0 N N 0 .4 H w z 3 r-I Ln 1n rn Q Z O tL J U O Z 12 LLI a U 0 m 0 rn in o, rA r\ U v tri W o < m < 0 � C in in J 1n Z O U Y ti J U DO uU In a r+-1 to M 06 N EQ-' X Q a o J U U w J LU SPRI - Harmony Solar D-005OS30 03-14-2016 HLLUVIOSO 03-14-2016 APATEL FIGURE A: MODULE INSTALLATION MANUAL PAGE 4 FIGURE B: MODULE INSTALLATION MANUAL PAGE 5 SOLAR-E9 LU a U_J W o 0 v in } } �, - (/�) Q O Z U o IN EM t �/ O � CI Ln 11 August 2014 Z < , 0 MA F F E I SunPower Invisimount Design Tool M A F F E I Structural Calculations o v o .9 11 o STRUCTURAL ENGINEERING STRUCTURAL ENGINEERING Page " I- W 1l.August.2014 Performed independent calculations for six example project sites, plus spot checks of other L, M potential project conditions, to compare to the structural design loads and load combinations :1 ¢ o a Guillaume Carrd calculated by the tool to act on the arrays, rails, and attachments to the roof structure. For all o o ¢ N .SunPower Corporation of the examples that we checked, the loads and load combinations calculated by the tool are } 1414 Harbour Way South consistent with our independent calculations in accordance with the structural design o � 0 Richmond, CA 94804 standard ASCE 7-10 Mininium Design. Loads for Buildings and Other -Structures. -'ip3 � < • Performed independent calculations for ten example project sites, plus spot checks of other fr _ " N Subject: SunPower Invisimount Design Tool potential project conditions, to compare to the bill of materials estimated by the tool. For all. cc Structural Calculations of the examples that we checked, the quantities of parts estimated by the tool_ are the same as P= " the quantities from our independent calculations, or within a reasonable tolerance. The Dear'Guillaume, attached "Engineering Basis of. Calculations" describes the procedure that the tool uses for estimating the bill of materials.. Per your request, we are pleased to present the findings from our review .and testing of SunPower'.s Invisimount, Design Tool, an online tool that: SUMMARY OF FINDINGS z :• Evaluates structural design.loads on SunPower Invisimount solar arrays. To an extent consistent with. the scope of our review„ our professional opinion is that the o a 9 Evaluates the maximum allowable spacing of attachments of the system to the roof to resist Invisimount Design Tool calculates structural .design loads on the solar arrays; and maximum In design loads allowable spacing of attachments ao the roof structure, that are consistent with the. standards and W > a Y U_ + Estimates the bill of materials for specific projects to assist with ordering parts from procedures described in the attached "Engineering Basis of Calculations;" including ASCE 7-10 Q U) L9 � m a SunPower Minitnum Design Loads for Buildings and Other Structures, the 201.2' International Building � Ln Z o M �' Code, and the 2013 California Building Code. = CL it Q SCOPE OF THE TOOL � � � U X Q Invisimount by SunPower is a solar panel support system for installing solar photovoltaic arrays DESIGN RESPONSIBILITY to Q ri o o N U) z on sloped.roofs of buildings. Typically such buildings are residential with shingle or.. tile roofs. The Invisimount Design Tool is intended to be used under the: responsible:charge of a registered �' O � o Each row or column of modules is supported by two rails, which are attached. to the roof design professional' where required by the authority having jurisdiction. In all cases, the tool a structure. The number: mid spacing of attachments to the roof structure can vary depending on, should be used under the direction of a design professional with sufficient structural engineering u for example, structural loads at a particular site, the type of attachment hardware used, and knowledge and experience to be able to:: z spacing of the bu lding:rafters. Evaluate whether the tool is applicable to the project, based an- the_'f`Engineering B, sis of The attached `Tngineering.Basis of Calculations" describes the scope of the:Invisimolnt Design. Calculations" document and the characteristics of theproject, alnd. Jlofthe its calculation procedures, and assumptions for use. 3'�Tool, Understand and determine the appropriate values for all input aha, efee tool. wl'Id;nj D pp-ri-ileSt o SCOPE QE QUR REVIEW Results of the tool should be checked agau st the: desrau profess na s'1ud ment.r xcerpts from standa o standards such as ASCE 7-10 are presented rn the tool as point r5 tv=tlie dean` dare ti Maffei Structural. Engineering collaborated with: SunPower on the develo went; of the Ma- g_. b P intended to dimun.sh the users responsibil ty,to. consult the appl chl�le,fi >;es and sections of the En Z Invisirtiouiit Design Tool:, including the.following tasks related to s:tructurai caledladons ' standard directly. The user or ,design professional. in responsible cvliiar eka�lstr$i�s .�tRQ,6U_sfg�r t� PLlA��ICE o - o • Provided. documents describmg applicable licable building code formulas •and. the calcutatia PP g responsibility. I. eviowed B .. YM* ; o procedure„to. he, implemented by SunPbwer's• programming team. The tool does not check'the �apacity;of, tlie:burlding structure to support the loads unposed onthe W Z '• with SunPower. and the roQrammina team during un lementation .to answer Worked. w ..b _. ,b - _m, :b P _ building b the array such as bending strength of roof ;rafters spanning between supports. This b Y y, b P g PP .p questions related to structural. calculations and test the functionality of the tool 415 329:Gi00 ' The tenns registered design professional and:regisiered design professtonal in responsible charge are defined• in www maffex-structgre com s the 2012 IBC Section W2. OPPORTUNITY SPRI - Harmony Solar 148 HermosaAYenue a Oakland, :CA 94di8 PROJECT D Oosos3o DATE DRAWN 03-14-2016 DRAWN BY HLLUVIOSO DATE CHECKED 03-14-2016 0 CHECKED BY APATEL FIGURE A: STRUCTURAL SUMMARY PAGE 1 FIGURE B: STRUCTURAL SUMMARY PAGE 2 SHEET SOLAR-E10 MAFFEI STRUCTURAL ENGINEERING 11. August 2014 SunPow.er. Invisimount Design Tool Structural Calculations Page 3 requires. additional knowledge of the building and, is outside the scope of the design tool mid, our C:1 I.D C, review-. If you have any questions regarding these findings, please call me at 510-604-2688. Sincerely, Maffei Structural Engineering 0 -t t'). $1159 I I Joe Maffei, S.E., Ph. D, LEED AP 3 J31LIJ& Principal W- jo��@maffei-.structure.com iV N� I I 1100-WRM ?A;<1 '-'tarnp and Rai? .4c,cVe" Erid Clamir) and R 1,4idl G-O.Irip Ed (Jarn,,- Rai: Fibfl Splice Gruji-tdi Msenib�j Erld Cap 10- 7m wA;gi,,t Mid clan-p 643, s-.4:! vre, -5, 63,g,�2 z� EndOamp a.r10612`21.J 1110.0(.-�,P8 oz) 1,zars P Ed sphiCe 6z,,0541 B-0 g/m (gqzir) G-a Iricl "-Ug /'S: e. n : �AL - 7 b I i I p 1 a c p, 1) -m ;L;� , 106.5 g,,rn 1,3,75 io�,) "zip ;irk,;iCer.ZNPOMU 61I)ONfrit 4 a (P,37 62) g, EN, 1 MIMI, - --p I , -I-,' - MAN —'X X� 1't I � C'Jrr1P,x;1,-44011 Vljit-�-Fje q jite- "N' iM (� En N1 Inq. .,r 11;11151� i N 5RR z M Curve.d and Ha -Re z I nj--.-e---SP0 [Neefplce k-Ir 0%licr Rc-of ArA&,rneht�, j pf 'isVIE-W&D"Ir' W-&Q'9&'OOMPLl NCE > Reviewed By. 0E Z U I I I 0 Z01 5 SwIP-3wer C uratran Ail RiffiP-5tlfvi?4, FORPMEP,the SU?PovvzR i6ge" ar'do"vqPOnyNT, zre regiswed OPPORTUNrTY SPRI - Harmony tradarmrkl. of 1ji oner krzitlnrnam winhe iroprtpdftheir resovimcwnors. in-ijded in VSubjECt LO I�Pcum2n:r pw B PR03ECr D-00SO530 DATE DRAWN 03-14-2016 DATE CHECKED 03-14-2016 DRAWN BY HLLMOSO CHECKED BY APATEL SHEET FIGURE A: STRUCTURAL SUMMARY PAGE 3 FIGURE B: INVISIMOUNT DATA SHEET SOLAR -El 1 U' ofift 54ML Pa downf6rce V) M C', < a Ln < 0 0 cc U Z LU V of 0 M 0 J cc 00 0 0< < tD V) 0 "A z 0 o Ln U > 0) U- r) w L -, < — U Z Ef) ca z w < >- (.9 rl� 0 CL Ln to to Z LL Cn > CL _j C� -J Cn 06 < U) w < U r� C,4 w U) x 1 0 kD C) 6 cl� < ri r1j Ln z N No D w 0 M V) -TH i CUPER hen disuince Depem 5 3,5' ? 1q4: !J'r.:.:_ ."- GAT E'�` OF COMPLIANCE Cortificater_Number 20140903-E466981 ' Report R'6ierefi6d.,. 81-20,14003" IssueDate t. 129014'SEPTEMb. ER-b3 ssue -'d to: "8UNROWER CORP -7 RIO ROBLES A .- NJOSE CA 95134 -1859 ..This is to certify,that- •MOUNTING SYSTEMS; MOUNTING DEVICESJ representative r iresibnta �C CLAMPING DEVICES AND GROUND LUGSFC FOR USE WITRPHOTOVOLT AICMODULES;-ANDANP EL InvisiMount Mounting and. -BondingSystem§Jot.uslE�with_ PhotovoltaicModules. .consisting -of, the f6llowind'-F -pi e Mid'Claitnp�,.,,�, rqqn ci%dt Rai I Ic d components; L-FF 1,,Rai ,.l,Sl L Lug IMP Y. 6, it 'Have :been investigated by UL in. accordance _yv with the ', StStandard(s)indipated' 'o n: this, Certificate: d Y: Investigation�,Jo —UL' ubibc!27b3,� 0r, Qu oting 'the Outline' ... ..... .$-.Mou nti ng -Device y slems,_ s Clamping/Retention ,,� Devibes'; and. G rou nd Lugsjot'use 'with Flat -Plate PhotbvoItaib,,:ci: a Modules hd;Painels Additional win imaitl6fi* , S 6LCertifidation&Directory'at ,O,nline www.ul:co'm/database for additional information those 06du6ti �UL 'i�t covered by U'Ll; J ListingMark Only, �,rlinj'ih.6.1.1 U11 in Marks'hould`be,6pnsjdee 0qs S"F. How Up 1QR7 Th6 ULListing-'MarK�.Cloneraliyinciucies,,tne-TOiiowing eiemenis:-ine,,SyMD01 UL`in a-cirpe.; ine word'!U§TiLd';4'� ntr61in unerq)a-s'6ignkj by"UL4681the. Dro upt category .-As-AbdidAtedl h appropriate ,,T�a m e,4 n r. n the 'tA eGi6ry.� tidt idehlqjer� 71_1712075: QIMS.E466581-- 6 ng§ystems, Mounting Clar�pin� pev- ' " hd. Gr6und!Lu0s4&:Use with PhotoQol t9J6 Modules and Panels M -ur.0 g .. Ices a.- QIMS.E466981 Mounting Systems, Mounting Devices, Clamping Devices and Ground Lugs for Use with Photovoltaic. Modules and Panels Page Bottom Mounting Systems,, Mounting Devices, Clamping Devices and Ground Lugs for Use with Photovoltaic Modules and Panels See General Information for Mounting Systems, Mounting Devices, Clamping' Devices and Ground Lugs for Use with Photovoltaic Modules and Panels SUNPOWER CORP 77 RIO ROBLES SAN LOSE, CA 95134 USA E4669B1 Cat. No. Investigated for Bonding Investigated for Mechanical Loading System Fire Classification (A, B or C) Tested in Combination With Photovoltaic mounting system InvisiMount - consisting Y Y A UL Listed PY Modu!ej: of the following Sunpower Carp: Models'SPRXYY-44#t, where YY components: L-Foot, -represents numbers. A, '19, 26 be 21, and ### Rail, Rail Splice, Mid represents�any number from :365 to-310..and:274 Clamp, Ground Lug to 233; SPR7Eyy-# *#,,where YY represents Assembly -nurfibep'18, 19, 20 or 21, and ### represents .any number from 345to 285'arid 250 to 225. All Models identified must have th.e,Gen 5'frame and have a Type 2.module characterization. Last.Updated on 2014-09-26 Questions? Print this page Terms of Use Pacie Top Q 2015 UL LLC When the UL Leaf Mark is on.the product, or when the word "Environment" is included in the UL Mark, please search the UL Environment database for additional information regarding this product's certification. The appearance of a company's name or product in this database does not in itself -'assure that products so identified have been manufactured under UL's Follow -Up Service. Only those products bearing the UL Mark should be considered to be•Certiffed and covered under UL's Follow -Up Service. Always look for the Mark on the product. UL permits the reproduction of the material contained in the Online Certification Directory subject .toolthe following conditions: 1. The Guide Information Assemblies, Constructions, Designs, Systems, and/or Certifications (fil,es). must be presenie.d.JinAheir entirety -and in a non- �mI46adl riq 'manner, without any manipulation of the data or drawings). 2. The�staterrient'" I Reprifited ff0m1he Ofilln"wCertificad onsZlrectdry with permission from UL" must appear adjacent to the extracted material. In addition th I - 'st � Ct `pftt",ftio ena :mu in d :the following format: 'it 2015 UL LLC". 'friN 8ul'lding Darjvrtmeni i Look for4 _"the 'UL Listing marl< -On! tne procluct. V MAR 3 0 2916 Z 4', RE EVIEWEDFOR CC! E COMPLIANCE Reviewed By: FIGURE B: CERTIFICATE OF COMPLIANCE MoJ/database.td.coni/c6-binIXYV/temOl6t--USEXT/lFRAMFistiajvpage.hfriii?iiarn&OlMg*.'E'466%1&,66nttoffid�Mb"iij+bSostem§i+Mob4iit+'Devices,+... 1/1 FIGURE B: CLASS A FIRE RATING UL LISTING W > Z V) w 0 U) Uf < tn ,C U 0 C� Ln on Z < 0 ce 0 < m U Cd 0 U P V) A.11 0 < In a, 01 7 0 0 < W U LU V� m 0 m 0 < < <LL V) 0 �!4 to Z 0 0 In U C) Gn (D ul 1> < LL Z I- co " Z _3 DO U LU U) < 0I CL V) Z 0 In Lf) > _J LL 66 CL cl� _J < < U) Lu U 4 LU -y U)F_ X ILD 0 M F_ < ri rA Z QL ur) r-) Ln 1714 0 LLI CL U) U II -,-,OPTUNrrY J SPRI - Hamony.1 PR01EC`r D-ODS0530 DATE DRAWN I 03-14-2016 DRAWN BY HLLUVIOSO DATE CHECKED 03-14-2016 CHECKED BY APATEL SHEET SOLAR-E12 i'i!X; JAMiES H'ViANG•dwl. USER; hlht-icso, )AU/1-JAL: M cj , 1 ". ',r) 16 9 ----------------- < r r.. CD a c 4 CD :v r rid c CD :3 x x 101 cc re7l Eel Lol m x ri�F� > w 9 F� 02 n nX a E� 0 >4 n , a z 0 0 .,R-gVI,,S 10 N S JAM HWANG 5.36 kW PV SYSTEM "q P V , .... . ",,"i , 1j, rV, S U N.P-,O:.W, E R*,*' REV -717 DESCRIPTION DATE DB CB ADDITIONAL (N) LOAD CENTER 3/14/ HL AP CORPORATION, SYSTEMS 1414 HARBOUR WAY SOUTH RICHMOND, CA 94804 5 10 5 4 0 - 0 5 5 0 10220 STERLING BLVD CUPERTINO, CALIFORNIA 95014 In HARMONY SOLAR 17471 FARLEY ROAD WEST LOS GATOS, CA 95030 (408)354-7799 SOLAR INDIVIDUAL PERMIT PACKAGE STRING DIAGRAM CUPERTINO Address ' 09 �) S PURPOSE SMOKE / CARBON MONOXIDE ALARMS OWNER CERTIFICATE OF COMPLIANCE COMMUNITY DEVELOPMENT DEPARTMENT • BUtLDiNG DIVISION 10300 TORRE AVENUE • CUPERTWO, CA 95014-3255 (40B) 777-3228 ^ FAX (408) 777-3333 • bullJin2@2L� ertinv.ona Permit No. i'Is$PrW CANNOT BT FINATCPED ANI) COMPLETEDilN'[M, THIS C)<u101FICATE HAS RRrN S 7 t AITn )f iT >RNT i3 T( T. BITILDING T}I 'T I£)I�1 This affidavit is a self-cenific_at.ion for the installation of all required Smoke and Carbon Monoxide Alarms for compliance with 2013 CRC Section R314, 2013 CBC Sections 420.6 and 907.2.11.2 where no interior access for inspections are required.. GENERAL INFORMATION Existing single-family and multi -family di,,,ellings shall be pro-x.,id.ed. with. Smoke .Al.arms an.d Carbotu Monoxide alarms. When the valuation of additions, alterations, or repairs to existing dwell ng units exceeds $1000.00, CRC Section R314 and CBC Sections 907.2.11.5 and 420.6 require th. at Smoke Alarms and/or Carton. �tonoxicle Alarraa.s be insta].lcd: in th.e fol.l.owing loca.ti.ons; .A.REA SMOKEALA:R;M CO ALARM Outside of each separate .sleeping area in the irnrnediate. vicinity of the bcdroorn(s) X X On every level of a dwelling unit inr..Ivdinp basements X X Within each sleeping room X Carbon Monoxide alarms are not required in dwellings v,,l�ri.ch do not contain fuel. -bunging appliances and that do, not have an attached garage. Carbon monoxide alarms combined with smoke alamns: -,ball comply with CBC Section t120.6 and, si�rall be approved by the Office of the State Pire Marshal. PoNver Supply: In dwelling units with no commercial. power supply, alarm(-.) may be solely battery operated, In existing dwelling u.rdts, alarms are. permitted, to be solely battery operated where repairs or alterations do n.ot result in the removal of wall and ceiling finishes or there is no access by means of attic, basemcnt or crawl space. Refex to CRC Section R314 atud CBC Sections 907.2,11.4 and 420.6.2, An electrical permit is required for alarms which mast be conjaected. to the building whir to As owner of the above -referenced. property, Thereby certify that the alarrrr(s) referenced above has/have been it istalled in accordance with the manttfactuaser's instructions and irr compliance with the California. B. uild.ing and California.Residcn.hal Codes. The alarms have been tested ar,d are operational, as of the date signed below. t have mart arrrf arnPF to e-onti)Ib with the tents at)d conddionr ; of ff;ls slalefrertl ' ovmor (or O saner Ao_enfs) Name: •r�rrl �,_ y,i1�U ......_. ._. C{�ontiador Warne: , $fi�dtUrf? r+` ............... UB.��. 1 1 i 1 I 1 1 to p/ S i nature... �l..G t t ...... ....... � ....... Lie g ..`!t�121 05 . u Smokcc and Cofotmr Bloc revised 03f18/ 4 I V. r-Cy0 1 VI L cyio-uv-vo to.ao.vu rvi . riuni. nsncNiyTauwnwunc wwiLwyu�yic.w n i3tivner Nance Address WATER -CONSERVING PLUMBING FIXTURES OWNER CERTIFICATE OF COMPLIANCE COMMUNITY DEVELOPMENT DEPARTMENT - BUILDING DIVISION Clll*ERTINC> 10300 TORRE AVENUE • CUPERTINO. CA 95014-3255 (408) 777-3228 • FAX (408) 777-3333 - buildh @..cuoertino-ores n 1. Is your ical property a rcgisteied Irstcrrical site'? [-I Yes Civil Code Seclions 1101.1 through 1101.8 do not apply. Skip the rest of the fonn and sign bottom of form. Pf Na Go to Question 2. 2. Does your real property have a licensed plumber certifying that, clue to the age or configuration of the property or its plumbing, installation Orwater-conserving plumbing fixtures is not technically feasible? ❑ Yes Civil Codc Seclions 1101.1 through 1.101.8 do not apply. E] ':the licensedplumber's certification has been provided to the Building Division. Skip the rest of thr forvi and sign bottom of form. No Go to Question 3, 3. Is water service permanently disconnected for your building? El Yes Civil Code Sections 1101.1 through 1101.8 do not apply. Skip the rest of the form and sign bottom of fmm, [Rr o Go to Question 4. 4. Is your real property built and available for use or occupancy on or before January 1, 1994? No, My real property is built and available for use or occupancy alleg January 1, 4994. Civil Code Sections 1101.1 through 1101.8 do not apply, Skip the res t of the form and sign bottom of form. Yes Yu vreal property is built and available for use or occupan y rstu or-. do Jaucrary 1;1994. Civil Code Sections 1101.1 tnrough 1101„ 8 apply. Check orw of the three following statements and sign bottom of form.. 5. Please check ONE of the following: my property is asinyle; faindy residerural rear) property, See Civil Code Section 1101..4. On and after January 1, 2014, building alterations or improvements shall require all non -compliant plumbing fixtures to be replaced with water -conserving plunibing fixtures throughout the building, On or before January 1, 2017, all non- compliant plumbing fixtures shall ba replaced with water -conserving plumbing fixturc-s (regardless of whether property under-goos alterations or i.mprovemmis). ❑ My property is a multifamily residential real property. See Civil Code Section 1101.5. On and after Jantkuy 1, 2014, specified building alterations or improvements shall require non- compliant plumbing factures to be replaced with -Later-conserving plu.r6bing fixtures. On or before January 1, 2019, all nor -cornpliaut plumbing fixtures shall be replaced with water - conserving plurmbirkg fixtures throughout die building (re;ardle,,s of whetlierpropertyundcagoes alterations or iurproveirrenis). O Mypropeity. is a ccrmrnei-ciol real properly. See Cavil Code Section 1101.5. On and after January 1, 2014, specified building alterations or improvements shall require ncm- compliant plumbing fixtures to be replaced xdth water. -conserving plumbing frxNres. On or before January 1, 2019, all nor -compliant plumbing fixtures shall be replaced with. water- conserving plumbing fixtures throughout the building (regardless of whether property undergoes alterations or improverncuts). 1, as the owner or owner's agent of tins property, certify under penalty of perjury that non -compliant plumbing fixtures will be replaced prior to date speui.tiecl above with water• -conserving plur abing fixtures in accordance with Civil Code _Sections 1101.1 through 1101.8, the current California Plumbing Code and Califorua Green Building Standards Code, and manufacturer's installation requironnents, and that the water -cons ig plumbing fixtures comply with the rc:cluire:ments as indicated bi the table on the following page. r. Owner or Owner Agents Sigoature: ' _._ Date 4_i% -7 , t1)non completing and signing this Celtifl`c'atc, plelise a rrr'n it to the Building Division in.. order to final your building•pecan t. SB407 201 S.dt c revfsed 08126115